1
2
Shri Vile Parle Kelvani Mandal’s
Shri Bhagubhai Mafatlal Polytechnic
Natakkar Ram Ganesh Gadkari Marg
Vile Parle (West),Mumbai – 400056
CURRICULUM
DIPLOMA IN PLASTICS ENGINEERING
Shri Bhagubhai Mafatlal Polytechnic started 3 years Diploma courses and was affiliated to the board of technical Examinations, Maharashtra State,in 1963. Since 1969, academicfreedom was granted to the Polytechnic, which enabled it to evolve curriculum and examination scheme and to introduce inplant training which involved industry institute interaction. Thus 4 years semester sandwich pattern came in existence. Since 1978-79 academic freedom was extended to all the full time diploma courses. In 1989 – 1990 ,full autonomy was granted to all seven full time diploma courses.
As a further development to the above, the multi point entry and credit system (MPECS) was initiated in 1981 on progressive basis.in this scheme students can regulate their pace of studies within the rules prescribed.
From 1993-94, full academic autonomy was extended to all 19 courses, which includes full time diploma, part time diploma, and post diploma courses. The students have to qualify for appearing in the final examination as per details given in MPECS rules. The examination is conducted by the institute and the final diploma is awarded by the institute at the convocation function.
Syllabus for semester I&II, which is common to all full time disciplines, is printed
The scheme of training and academic instructions is schematically shown below:
1st semester 2nd semester
1stYear
3rd semester 4th semester
2nd Year
5th Semester 6th Semester
3rd Year
7th Semester 8th Semester
4th Year
Practical Training :
Institution Institution
Inplant Institution
Institution Inplant
Institution Institution
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The students receive institutional training for the first four semesters.In the fifth semesters they are given inplant or field training. They return to the polytechnic in the sixth semester for institutional training. In the concluding eighth semester, they again receive inplant or field training. This scheme enables the students to be exposed to industry during their training provides for practice orientation and improves their prospects for employment.
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Shri Vileparle Kelavani Mandal`s
Shri Bhagubhai Mafatlal Polytechnic
Plastics Engineering Department
Course : Plastics Engineering
RATIONALE
The Plastics Engineering department is to provide polymer related technical diploma to the dynamic changing needs of the Industry, Business & Community. The course is four years Aided Semester Sandwich pattern having multipoint entry and credit system.
The course is designed to fulfill the needs of the plastics industry. The emphasis of the course is on polymer education, deals with plastics raw materials, manufacturing, processing, testing, fabrication, product design, mould design, processing machines & their construction, working, maintenance and servicing. Also basics and advanced hydraulics, pneumatics & system controls. The student will also learn basics of computers, CAD, CAM, CIM etc
OBJECTIVES
The students will be able to
1. Understand Plastics product and mould design. 2. Familiarize with properties of plastic material & their chemistry. 3. Test and analyze various polymers, blends, alloys & composites. 4. Learn various plastics processing techniques and their processing parameters 5. To gain knowledge of construction, service and maintenance of plastics moulding 6. Train as per latest needs of the industry 7. To develop their personality and business oriented mind to become a successful entrepreneur.
Recently the Plastics Engineering Department incorporated the ten latest emerging thrust areas in revised curricula effective from July 2008, these are nanotechnology, Biodegradable Plastics, Plastics in packaging, Polymer Rheology, Blends, Alloys and Composites, Rubber, Thermoplastics Elastomers, Advanced Mould Design, Sixth Sigma Quality management, Recycling of Plastics etc
The following are the subjects on which Plastics Engineering Diploma is awarded :
1. Technology of Plastics (PE-45) IV Semester 2. Advanced Hydraulics, Pneumatics and System Controls (ME-53) VI Semester 3. Design of Moulds – II (PE-40) VI Semester 4. Plastics Plant Equipments II (PE-77) VII Semester
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5. Processing Of Plastics II (PE-70) VII Semester 6. Plastics Product Design and Testing (PE-71) VII Semester 7. Project (PE-78) VII Semester 8. Production Management (ME-56) VII Semester
Total Marks for the above subjects are 1200
Total Minimum credits required for award of diploma are 180+30 (Credits of inplant training)
After completion of diploma students will be able to work as
• Mould Designer • Plastics Moulding Supervisor • Plastics Entrepreneur • Quality Control Engineer • Service & Maintenance Engineer • Plant Engineer • Customer Support Service Engineer • Rubber and Plastics Compounder
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Plastics Engineering Department
DIPLOMA IN PLASTICS ENGINEERING
SCHEMES FOR THE
SEMESTERS FROM
I TO VIII
With effective from Batch admitted in June 2008.
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Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE: PLASTICS ENGG. (FULL TIME) w.e.f. batch admitted June, 2008 (Progressively)
SEMESTER: FIRST TEACHING & EXAMINATION SCHEMES
Sr
No
Subject Subject Code
Scheme of Instructions and Periods per week
No.of papers,
duration and marks
Scheme of Examination Gr Scheme L/P/Cr
L P D T Cr NP Hrs Mks SSL Paper T/W PR OR Total
1.1 Communication Skill SS-23 3 - - - 3 01 03 100 20 80 - - - 100 B* 303
1.2 Mathematics-I MA-15 3 - - 1 4 01 03 100 20 80 - - - 100 B* 404
1.3 Chemistry SC-27 4 4 - - 8 01 03 100 20 80 25 50 - 175 B* 448
1.4 Fundamentals of Computer & Networking System
CA-54 2 4 - - 6 - - - 20 - 50 50 - 120 C* 246
1.5 Engineering Drawing-I ME-16 2 - 6 - 8 01 03 100 20 80 50 - 50 200 C* 268
1.6 Workshop Technology ME-26 - 5 - - 5 - - - - - 50 - 50 100 C* 055
TOTAL 14 13 06 1 34 06 PAPERS
TOTAL PERIODS = 34 TOTAL MARKS = 795
* Compulsory
L- Lecture Period SSL- Sessional P- Practical Period T/W- Term Work
(1) Unless stated, T.W. will be assessed by the Internal examiner D- Drawing Practice Period Pract- Practical based on considering the continuous assessment NP- No.of Papers Cr - Credit
by the concerned internal faculty Mks - Marks
(2) Unless stated, Practical, Practical/Oral (P/O), oral will be
jointly by the internal and external examiners.
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Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE: PLASTICS ENGG. (FULL TIME) w.e.f. batch admitted June, 2008 (Progressively)
SEMESTER: SECOND TEACHING & EXAMINATION SCHEMES Effective from the Academic Term
July/November 2008
Sr
No
Subject Subject Code
Scheme of Instructions and Periods per week
No.of papers,
duration and marks
Scheme of Examination Gr Scheme L/P/Cr
L P D T Cr NP Hrs Mks SSL Paper T/W PR OR Total
2.1 Development of Generic skill
DG-1 2 - - - 2 01 03 100 20 80 - - - 100 B* 202
2.2 Mathematics-II MA-25 3 - - 1 4 01 03 100 20 80 - - - 100 B* 404
2.3 Physics SC-17 4 4 - - 8 01 03 100 20 80 25 50 - 175 B* 448
2.4 Applied Mechanics AM-16 3 2 - - 5 01 03 100 20 80 25 - - 125 C* 325
2.5 Engineering Drawing-II ME-36 2 - 6 - 8 01 04 100 20 80 50 - 50 200 C* 268
2.6 Fabrication Technology ME-46 2 4 - - 6 01 03 100 20 80 25 - 50 175 C* 246
TOTAL 16 6 1 33 06 PAPERS 875
TOTAL PERIODS = 18 TOTAL MARKS = 875
* Compulsory
L- Lecture Period SSL- Sessional P- Practical Period T/W- Term Work
(1) Unless stated, T.W. will be assessed by the Internal examiner D- Drawing Practice Period Pract- Practical based on considering the continuous assessment NP- No.of Papers Cr- Credit
by the concerned internal faculty Mks - Marks
(2) Unless stated, Practical, Practical/Oral (P/O), oral will be
jointly by the internal and external examiners.
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Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE: PLASTICS ENGG. (FULL TIME) w.e.f. batch admitted June, 2008 (Progressively)
SEMESTER: THIRD TEACHING & EXAMINATION SCHEMES Effective from the Academic Term
July/November 2008
Sr
No
Subject Subject Code
Scheme of Instructions and Periods per week
No.of papers,
duration and marks
Scheme of Examination Gr Scheme L/P/Cr
L P D T Cr
NP Hrs Mks SSL Paper
T/W PR OR Total
3.1 Mathematics-III MA-35 3 - - 1 4 01 03 100 20 80 - - - 100 C 404
3.2 Strength of Materials AM-39 3 2 - - 5 01 03 100 20 80 50 - 25 175 C 325
3.3 Engineering Drawing-III ME-37 2 - 6 - 8 01 04 100 20 80 50 - 50 200 C* 268
3.4 Basic Electrical & Electronics
EE-32 4 2 - - 6 01 03 100 20 80 50 - 25 175 C* 426
3.5 Polymer Chemistry SC-35 3 2 - - 5 01 03 100 20 80 50 50 - 200 C* 325
3.6 Introduction to Manufacturing Process & Aux.Equipments.
PE-31 3 2 - - 5 01 03 100 20 80 50 - 50 200 C* 325
3.7 Material Science & Metallurgy
ME-07 2 2 - 4 01 03 100 20 80 25 - 25 150 C* 224
TOTAL 20 10 6 1 37
06 PAPERS 140
560 275
50 150
1200
TOTAL PERIODS = 37 TOTAL MARKS = 1200
* Compulsory
L- Lecture Period SSL- Sessional P- Practical Period T/W- Term Work
(1) Unless stated, T.W. will be assessed by the Internal examiner D- Drawing Practice Period Pract- Practical based on considering the continuous assessment NP- No.of Papers Cr- Credit
by the concerned internal faculty Mks - Marks
(2) Unless stated, Practical, Practical/Oral (P/O), oral will jointly by the internal and external examiners.
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Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE: PLASTICS ENGG. (FULL TIME) w.e.f. batch admitted June, 2008 (Progressively)
SEMESTER: FOURTH TEACHING & EXAMINATION SCHEMES Effective from the Academic Term
July/November,2008
Sr
No
Subject Subject Code
Scheme of Instructions and Periods per week
No.of papers,
duration and marks
Scheme of Examination Gr Scheme L/P/Cr
L P D T Cr NP Hrs Mks SSL Paper T/W PR OR Total
4.1 #Technology of Plastics PE-45 3 2 - - 5 1 3 100 20 80 50 50 - 200 C* 325
4.2 Processing of Plastics-I PE-46 3 2 - - 5 1 3 100 20 80 50 - 25 175 A* 325
4.3 Plastics Plants Equipment-I PE-47 2 2 - - 4 1 3 100 20 80 50 - - 150 A* 224
4.4 Manufacturing Processes ME-39 2 5 - - 7 1 3 100 20 80 50 - 50 200 C* 257
4.5 Design of Moulds-I PE-48 2 - 3 - 5 1 4 100 20 80 50 - 50 200 A* 235
4.6 Basics of Hydraulic & Pneumatics
ME-52 2 2 - - 4 1 3 100 20 80 50 - 50 200 C* 224
4.7 Elastomer Technology PE-68 2 2 - - 4 1 3 100 20 80 50 - - 150 A 224
4.8 Advanced Mathematics MA-45 4 0 - - 4 1 3 100 20 80 - - - 100 A 404
TOTAL 20 15 3 - 38 08 PAPERS 160
640 350
50 175
1375
TOTAL PERIODS = 38 TOTAL MARKS = 1375
* Compulsory
L- Lecture Period SSL- Sessional P- Practical Period T/W- Term Work
(1) Unless stated, T.W. will be assessed by the Internal examiner D- Drawing Practice Period Pract- Practical based on considering the continuous assessment NP- No.of Papers Cr- Credit
by the concerned internal faculty Mks - Marks
(2) Unless stated, Practical, Practical/Oral (P/O), oral will be
jointly by the internal and external examiners.
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Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE: PLASTICS ENGG. (FULL TIME) w.e.f. batch admitted June, 2008 (Progressively)
SEMESTER: SIXTH TEACHING & EXAMINATION SCHEMES Effective from the Academic Term
July/November,2008
Sr
No
Subject Subject Code
Scheme of Instructions and Periods per week
No.of papers,
duration and marks
Scheme of Examination Gr Scheme L/P/Cr
L P D T Cr NP Hrs Mks SSL Paper T/W PR OR Total
6.1 #Adv. Hydraulics Penumatic & System Controls
ME-53 2 2 - - 4 1 3 100 20 80 25 - 25 150 A* 224
6.2 #Design of Moulds-II PE-60 3 - 3 - 6 1 4 100 20 80 25 - 50 175 C* 336
6.3 Manufacturing Eco. & Mktg
PE-61 3 2 - - 5 1 3 100 20 80 25 - 25 150 M* 325
6.4 Poly. Comp.Blends & Alloys
PE-62 2 - - - 2 1 3 100 20 80 - - - 100 C 202
6.5 Plastics in Packaging PE-66 2 2 - - 4 1 3 100 20 80 25 - - 125 A 224
6.6 Metrology & Quality Control
ME-05 3 2 - - 5 1 3 100 20 80 25 - 25 150 M*
325
6.7 Mechanism ME-47 3 2 - - 5 1 3 100 20 80 25 - 25 150 C 325
TOTAL 18 10 3 - 31 07 PAPERS 140
560 150
- 150
1000
TOTAL PERIODS = 31 TOTAL MARKS = 1000
* Compulsory
L- Lecture Period SSL- Sessional P- Practical Period T/W- Term Work
(1) Unless stated, T.W. will be assessed by the Internal examiner D- Drawing Practice Period Pract- Practical based on considering the continuous assessment NP- No.of Papers Cr- Credit
by the concerned internal faculty Mks - Marks
(2) Unless stated, Practical, Practical/Oral (P/O), oral will be
jointly by the internal and external examiners.
12
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE: PLASTICS ENGG. (FULL TIME) w.e.f. batch admitted June, 2008 (Progressively)
SEMESTER: SEVENTH TEACHING & EXAMINATION SCHEMES Effective from the Academic Term
July/November,2008
Sr
No
Subject Subject Code
Scheme of Instructions and Periods per week
No.of papers,
duration and marks
Scheme of Examination Gr Scheme L/P/Cr
L P D T Cr NP Hrs Mks SSL Paper
T/W PR OR Total
7.1 #Plastics Plants Equipments-II
PE-77 2 2 - - 4 1 3 100 20 80 25 - - 125 A* 224
7.2 #Processing of Plastics-II PE-70 3 2 - - 5 1 3 100 20 80 25 - 25 150 A* 325
7.3 # Plastics Prod Design & Testing
PE-71 3 2 - - 5 1 3 100 20 80 25 25 - 150 A* 325
7.4 Adv in Mould Design .& Mfg
PE-72 2 - 2 - 4 1 4 100 20 80 50 - 50 200 A 224
7.5 # Project PE-78 - 4 - - 4 - - - - - 50 - 50 100 A* 044
7.6 #Production Management ME-56 3 2 - - 5 1 3 100 20 80 25 - 25 150 M* 325
7.7 Maintenance of Plastic Machines
PE-49 3 2 - - 5 1 3 100 20 80 50 50 - 200 A 325
7.8 Environmental. Science & Plastics Waste Disposal Mgnt.
PE-75 3 2 - - 5 1 3 100 20 80 50 - 50 200 M 325
7.9 CAD, CAM & CIM CA-73 2 3 - - 5 1 3 100 20 80 50 50 - 200 A 235
TOTAL 21 19 2 - 42 09 PAPERS 160 640
350 125
200
1475
TOTAL PERIODS = 42 TOTAL MARKS = 1475
* Compulsory
(1) Unless stated, T.W. will be assessed by the Internal examiner L- Lecture Period SSL- Sessional based on considering the continuous assessment P- Practical Period T/W- Term Work
by the concerned internal faculty D- Drawing Practice Period Pract- Practical
(2) Unless stated, Practical, Practical/Oral (P/O), oral will be
jointly by the internal and external examiners.
w.e.f.-Batch admitted June,2008 (Progressively)
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Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE: PLASTICS ENGG. FULL TIME w.e.f. batch admitted June, 2008 (Progressively)
INPLANT TRAINING EXAMINATION SCHEMES Effective from the Academic Term July/November,2008
V SEMESTER
Sr
No
Subject
Duration
Credit Weekly
Report
Quiz Test
Marks
Dissertation
(Report)
Oral/Viva
Marks
Total
5.1 26 Weeks 15 Maximum Marks 50 50 50 50 200
Minimum Marks 20 20 20 20 80
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Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE : PLASTICS ENGINEERING FULL TIME w.e.f. batch admitted June,2008 (Progressively)
INPLANT TRAINING EXAMINATION SCHEMES Effective from the Academic Term July/November,2008
VIII SEMESTER
Sr
No
Subject
Duration
Credit Weekly
Report
Quiz Test
Marks
Dissertation
(Report)
Oral/
Viva
Total
8.1 26 Weeks 15 Maximum Marks 50 50 50 50 200
Minimum Marks 20 20 20 20 80
• Maximum 100 marks of Inplant Training will be considered for Award of Diploma.
• The Examination shall be conducted for 200 marks and same marks will be converted
in to 100 by the Examination Section.
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Syllabus w.e.f June 2008
I to VIII Semester
16
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE: PLASTICS ENGG. FULL TIME w.e.f. batch admitted June, 2008 (Progressively) SEMESTER: FIRST TEACHING & EXAMINATION SCHEMES Effective from the Academic Term
July/Nov 2008
Sr
No
Subject Subject Code
Scheme of Instructions and Periods per week
No.of papers,
duration and marks
Scheme of Examination Gr Scheme L/P/Cr
L P D T Cr NP Hrs Mks SSL Paper T/W PR OR Total
1.1 Communication Skill SS-23 3 - - - 3 01 03 100 20 80 - - - 100 B* 303
1.2 Mathematics-I MA-15 3 - - 1 4 01 03 100 20 80 - - - 100 B* 404
1.3 Chemistry SC-27 4 4 - - 8 01 03 100 20 80 50 25 - 175 B* 448
1.4 Fundamentals of Computer & Networking System
CA-54 2 4 - - 6 - - - 20 - 50 50 - 120 C* 246
1.5 Engineering Drawing-I ME-16 2 - 6 - 8 01 03 100 20 80 50 - 50 200 C* 268
1.6 Workshop Technology ME-26 - 5 - - 5 - - - - - 50 - 50 100 C* 055
TOTAL 14 13 06 1 34 06 PAPERS 795
TOTAL PERIODS = 34 TOTAL MARKS = 795
* Compulsory
L- Lecture Period SSL- Sessional P- Practical Period T/W- Term Work
(1) Unless stated, T.W. will be assessed by the Internal examiner D- Drawing Practice Period Pract- Practical based on considering the continuous assessment NP- No.of Papers Cr - Credit
by the concerned internal faculty Mks - Marks
(2) Unless stated, Practical, Practical/Oral (P/O), oral will be
jointly by the internal and external examiners.
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Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
(1) SUBJECT DETAILS
Course : C/M/E/IE/PL/CH/DE Semester: I
Subject : Communication Skill Duration : 16 weeks
Group : Basic (B*) Code: SS-23
Compulsory
(2) TEACHING AND EXAMINATION SCHEME :
Scheme of Instructions and
Periods per Week
No. of papers, duration and Marks
Scheme of Examination Scheme
L/Pr/Cr
L P D T Cr NP Hrs Mks SSL Th paper
T/W
Prac Oral Total
3 - - - 3 1 3 100 20 80 - - - 100 303
(3) RATIONALE :
In take level of the students is S.S.C or is Equivalent. These students have studies English for minimum of 6 years. Expected level of heir Active Vocabulary is 2500 words from the Nagpur list of High Frequency words. However, in practice it was found that the students, particularly from the vernacular medium have only 1500 words at their command. They need to have course in English subject to offset this situation. Therefore, the first semester engineering course students need to study English. Further, in this age of information, Communication Skill is essential to everyone. This is equally true in the case of Engineers. Engineers having sound knowledge of the technical subjects should be able to communicate the same to his superiors, peers and subordinates in their routine work environment. Having a sound Communication Skill will enable the engineering students to learn and interprets the subject effectively. This saves time and money and enhances the effectiveness of the engineer’s performance.
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(4) OBJECTIVES :
(i) The student will increase his English vocabulary to a minimum of 2500 words (Nagpur List) through the prescribed text and grammar exercises by various techniques such as synonyms, Antonyms, One word substitutes, Prefixes & Suffixes and Comprehension of new words, Idioms and Prepositional Phrases. Students will be able to use principles to solve problems in Mathematics at Higher Semester level.
(ii) Students will understand the various uses of grammar items such as Voice in English sentences, Degrees of Comparison, Tenses, Direct and Indirect Speech in formation of various kind of sentences.
(iii) Students will master the important structures of English sentences to enhance their communication skill so that they can interact (orally and in writing) with people at different levels and in different situations with confidence.
(iv) This subject will enable the engineering students to understand the following:
Effective Oral Communication
Better Written Communication
How to Improve Human Relations
How to Overcome Barriers to Communication
The need for Enhancing Personality
(5) DETAILED CONTENTS :
Chapter Content
SECTION – I
Marks Hours
01) Five lessons as five units from the prescribed English Book as described in the section ‘Reference’ Below
20
08
02)
Parts of Speech
2.1 Nouns, Pronouns & Adjectives
2.2 Verbs & Adverbs
2.3 Prepositons, Conjunctions, etc.
06
01
19
03) Sentences
3.1 Synthesis of Sentences
3.2 Tenses
3.3 Degree of Comparison 3.4 Transformation of four kinds of sentences-
Assertive, Imperative, Interrogative and Exclamatory
10
02
04) Essay/Paragraph/Report Writing
4.1 Long Essay
4.2 Short Paragraph
4.3 Report Writing-Visits, Accidents, Trouble,
Maintenance, Memo
16
05
05) Letters
5.1 Formal & Informal
5.2 Letters for Inquiry, Order, Complaint, Application for
Job
16
05
SECTION – II
06)
Dialogue Writing
06
01
07) Technical Description
7.1 Theory and Practice (Language)
08
02
08) Business Correspondence
20
8.1 Importance of Business Correspondence
Format of a Business Letter
8.2 Types of Layout
8.3 Cardinal Qualities of Business Letter
24
08
09 Notices and Instructions
9.1 Theory and Layout
9.2 Types of Notices
9.3 Tender Notice (Theory and Specimen)
24
06
10 Background of Industry
10.1 Definition of Terms-Industry, Industrialization, Etc.
10.2 Factors of Production, Infrastructure
10.3 Industrial Estates Small Scale Industries, Trade
Unions.
10
02
Total (82) (24)
(6) IMPLEMENTATION STRATEGY (PLANNING):
(i)Five units from the prescribed text book (English for Technical Students-T.T.T.I. Chandigarh),
Lessons in the prescribed text book are used as guidelines for explaining the techniques of
essay/dialogue writing.
(i) Teaching Plan
(ii) Grammar items are covered along with the units of lessons
(iii) Home assignments and class room participation
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(7) REFERENCE BOOKS:
Sr.No. Author Title Year of Publication
Publishers & Address
1. Dr. (Mrs.) Urmila Rai Dr. S.M. Rai
Business Communication
2002 Himalaya Publishing House
2. Edited Lessons Communication Skill for Technical Students(National Project on Communication Skill, Chandigarh)
1998 Somaiya Publications Pvt. Ltd., Mumbai & New Delhi
3. Wren & Martin Grammar & Composition
2002 Chand Publications, New Delhi
4. J.C.Nesfield English Grammar, Composition & Usage
1994 Mc.Milan, Madras
Krishna Mohan Meera Banerji
Developing Communication Skill
2004 McMilan India Ltd., New Delhi
22
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS : With effect from July 2008
Course: CE/ME/EE/IE/PL/CH/DE Semester: I
Subject : 1.2 Mathematics-I Duration : 16 weeks
Group : Basic(B*) Code: MA-15
Compulsory
2. TEACHING AND EXAMINATION SCHEME:
Scheme of instruction and periods per week
No. of papers, duration and Marks
Scheme of Examination Scheme
L/Pr/Cr
L LPP P D T Cr NP mnbHrs Mks SSL Theory
Paper
T/W Pract Oral Total
3khj 3 Utut - dfd - 1fgh 1 Fdfd 4 Dfd 1 Fgd 3 Jhui 100 Hgh 20 80 - gdg - Bnv - 10 100 404
3. RATIONALE:
Algebra, Trigonometry and Coordinate Geometry are introduced as prerequisite for the topics to be studied later on to solve the engineering problems.
4. OBJECTIVES: 1. The students will be able to use the Mathematical Methods to solve the engineering
problems.
2. Students will be able to use principles to solve problem in Mathematics at Higher Semester level
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5. DETAILED CONTENTS: SECTION I
Chapter Content
Marks Hours
(01) Trigonometry
1.1 Trigonometric ratio of any angle, Definition of
Radian, Length of arc of sector s = rθ ,
Area of Sector A = θ22
1r
1.2 Trigonometric ratios of allied, compound angles
and multiple angles
1.3 Inverse trigonometric functions
1.4 Properties and solution of triangle
1.5 Solution of Trigonometric equation by graph
08
24
12
12
06
02
06
04
04
02
(02) Matrices
2.1 Definition of a matrix of order mxn.type of matrices
2.2 Addition and subtraction of two matrices
2.3 Multiplication of a matrix by a scalar, multiplication of two matrices.
2.4 Singular and Non-singular matrices. Transpose of a matrix. Adjoint of matrix, Inverse of a matrix A by
02
04
04
01
01
01
24
findings Adj. A solution of simultaneous equation by using a matrix.
10
----
(82)
03
----
(24)
(03)
SECTION-II Algebra
3.1 Determinant
18
05
3.2 Partial fractions 16 04
3.3 Binomial Theorem
24 08
3.4 Progression (A.P./G.P.)
16 04
3.5 Permutations and Combinations
08 03
Total
-----------------
(82) (24)
(6) IMPLEMENTATION STRATEGY (PLANNING)
Conducting lectures as per the teaching plan and conducting tutorials.
25
(7) REFERENCE BOOKS
Sr.No.
Author Title Year of Publication
Publishers & Address
(i) S.P.Deshpande Mathematics for Polytechnic Students-I & II
1998
Pune Vidyarthi Graha Prakashan
Pune-30
(ii) G.V. Kumbhojkar Engineering Mathematics – I & II
1999 Jamnadas & Co.
(iii) Patel/Rawal & others Applied Mathematics-I
2002 Nirali Prakashan, Mumbai
26
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
2. TEACHING AND EXAMINATION SCHEME:
Scheme of instruction and periods per week
No. of papers, duration and marks
Scheme of examination Scheme
L/Pr/Cr
L P D T Cr NP Hrs Mks SSL Theory
Paper
T/W Pract Oral Total
4 4 - - 8 1 3 100 20 80 25 50 - 175 4/ 4 /8
3. RATIONALE :
This subject is classified under the category of Basic Sciences. It intends to develop the understanding of fundamental principles of chemistry and also impart knowledge of various engineering material. This will form the base for the better understanding of the other core technology and technological subjects of different branches. 4. OBJECTIVES :
After studying the subject the student will be able to
1. Understand basic principles of chemistry. 2. Apply the principles to other subject. 3. Identify different engineering materials. 4. Compare the properties of different engineering materials and select engineering materials for
various purposes. 5. Apply his knowledge on day to day basis.
Course: C/M/E/IE/PL/CH/DE Engineering Semester: I
Subject: Chemistry Duration : 16 weeks
Group : Basic (B*) Code: SC – 27
Compulsory
27
5. DETAILED CONTENTS:
SECTION-I
Chapter Content Marks Hours
1.
1.0 Atomic Structure:
1.1 Bohr’s Tzheory of an atom 1.2 Quantum numbers 1.3 Orbits and orbitals, shape of s and p orbitals 1.4 Pauli’s exclusion principle 1.5 Hund’s rule 1.6 Aufbau principle 1.7 Electronic configuration of first twenty elements 1.8 Study of inert gases 1.9 Nuclear stability mass defect and binding energy 1.10 Bonding electrovalency and covalency.
Applications
Civil engineering
To understand the behavior of any material
Mechanical engineering
Material sciences , behavior of material for various applications
Electrical engineering
Fundamental of electricity like conductivity, resistivity, selection of materials
Electronics
To understand semiconductors, diodes, transistors
Plastic engineering
Polymerization , bonding
Chemical engineering
Reaction of different types, bonding ,unit operations, chemical
16 07
28
process technology
Practice :
i) Volumetric analysis
ii) Qualitative analysis
2. 2.0 Electrochemistry :
2.1 Atom, ion
2.2 Arrhenius theory, degree of ionization
2.3 Mechanism of electrolysis
2.4 Numerical problems based on its applications industrial 2.5 Applications of electrolysis
Applications
Civil engineering
Corrosion control
Mechanical engineering
Electroplating of various materials, in foundry for making patterns and moulds ,material science
Electrical engineering
Electrochemical reactions , batteries, electrochemical cells
Electronics
Manufacture of PCB
Plastic engineering
Electroplating of different plastic materials
Chemical engineering
10 05
29
Electroplating, different electrolysis process, unit operations, chemical process technology, distillation and filtration
3. 3.0 pH –
3.1 Concept of pH
3.2 pH scale applications of pH in industry
3.3 Examples based on hydrogen ion and hydroxyl ion
concentration
Applications
Civil engineering
Concreting and quality of water
Mechanical engineering
Selection of water fir cooling towers, other air-conditioning and refrigeration purposes, boilers , lube oils
Electrical engineering
Transformer oils and other instruments
Electronics
Manufacture of PCB
Plastic engineering
Reactions conditions, ABS plastic and alloys
Chemical engineering
Reaction conditions instrumentation, plant utility, chemical reaction engineering and pollution.
04 02
4. 4.0 Metallurgy : 16 07
30
4.1 Types of metals & properties
4.2 General metallurgical processes
4.3 Metallurgy of iron- extraction of iron by blast furnace 4.4 Classification of steel – Based on its carbon content and
its applications. Properties of cast iron, wrought iron
and steel. Effects of elements on properties of steel
4.5 Heat treatment of steel – Hardening tempering,
annealing and normalizing
4.6 Metallurgy of aluminum by Hall’s process.
Applications
Civil engineering
Engineering material
Mechanical engineering
Manufacturing of engineering tools and machine parts
Electrical engineering
Electrical engineering materials
Electronics
PCB and parts of machines
Plastic engineering
Machines and reinforced plastics
Chemical engineering
Metals for construction of plant utilities
5. 5.0 Alloys : 09 02
31
5.1 Definition and purposes of alloying
5.2 Methods of preparation of alloys
5.3 Properties, composition and application of certain non ferrous alloys.
(i) Duralumin (ii) Magnalium (iii) Monel metal
(iv) Alnico (v) Babbit metal (vi) Gun metal
(vii) Brass (viii) Bronze
Applications
Civil engineering
Engineering material
Mechanical engineering
Material sciences
Electrical engineering
Soldering and welding
Electronics
Thermocouple and soldering
Plastic engineering
Alloys and moulds
Chemical engineering
Petrochemicals , material of construction, chemical process technology
6. 6.0 Corrosion :
6.1 Definition and types of Corrosion
18 07
32
6.2 Mechanism of corrosion
6.3 Factors affecting corrosion
6.4 Methods of prevention of corrosion.
(i) Applying protective coatings on the surface of metal by hot dipping – galvanizing and tinning.
(ii) Metal cladding. (iii) Electroplating. (iv) Spraying. (v) Sherardizing.
Applications
Civil engineering
Building repair and maintenance, concreting
Mechanical engineering
Selection of materials and prevention against corrosion
Electrical engineering
Dam conditions, maintenance of appliances, transmission of cables
Electronics
Machine parts and machine frames
Plastic engineering
Fiber reinforced plastics, bridges
Chemical engineering
Chemical process technology, pollution, material of construction
7. 7.0 Protective Coatings : 09 02
33
7.1 Paints
7.2 Characteristics of good paint
7.3 Constituents of paints and their applications
7.4 Varnishes
7.5 Types & characteristics of varnishes
7.6 Applications
Applications
Civil engineering
Engineering materials
Mechanical engineering
Material sciences
Electrical engineering
Electrical instruments & materials
Electronics
PCB making
Plastic engineering
Galvanizing , electroplating & plastics paints
Chemical engineering
Chemical process technology, pollution, material of construction
34
SECTION – II
8. 8.0 Water :
8.1 Impurities in natural water, physical and chemical characteristics of drinking water.
8.2 Hard water - Expression and estimation of hardness of water 8.3 Examples on the removal of hardness of water 8.4 Disadvantages of hard water in domestic industrial
applications. Boiler feed water – Disadvantages due to hard water in the boiler
8.5 Methods of softening hard water. (i) Deionization process. (ii) Calgon process. (iii) Soda ash process. (iv) Permulite – Zeolite process disadvantages of hard water
in domestic and industrial applications. 8.6 Sterilization of water – chlorination + ozonisation 8.7 Sewage – disadvantages & treatment
Applications
Civil Engineering
Concreting
Mechanical Engineering
Hydraulics, Boilers and Engines
Electrical Engineering
Maintenance of machines, Batteries and Inverters
Electronics
Water Base Indicators
Plastic Engineering
Estimation and Manufacture of Resins
Chemical Engineering
Plant Utility, Heat Transfer Operations, Pollution and Pollution
22 09
35
Control
Practice :
i) Determination of hardness of water
ii) Determination of chloride content of water
9. 9.0 Fuels :
9.1 Definition and classification of fuels
9.2 Calorific value of fuel units and definition
9.3 Coal types and analysis of coal.
i) proximate ii) Ultimate analysis
9.4 Characteristics of a good fuel
9.5 Crude petroleum – catalytic cruding fractional distillation
of crude petroleum.
Knocking of petrol in internal combustion engine and
octane number.
9.6 Gaseous fuel – Calorific value, composition and
applications of i) water gas ii) LPG iii) Coal gas
iv) Producer gas v) Natural gas
Applications
Civil Engineering
Manufacturing of bricks and Preparation of Concrete mixtures
Mechanical Engineering
Thermodynamics, thermal engines, Power Engines
Electrical Engineering
18 08
36
Power generating stations
Electronics
Preparation of spare parts of machines
Plastic Engineering
Soldering and Welding
Chemical Engineering
Plant Utility, Petrochemicals
10. 10.0 Lubricants :
10.1 Definition and types of lubricants
10.2 Types of lubrication fluid film lubrication
Boundary lubrication, extreme pressure lubrication
10.3 Properties of lubricants.
i) Degree of acidity ii) Saponification number iii)
Viscosity iv) Viscosity index v) Flash and fire point
vi) Pour point + Cloud point.
Working of Penskey Martin’s apparatus to determine
flash and fire point. Working of redwood viscometer to
determine viscosity.
Applications
Civil Engineering
Selection of lubrication for civil work and small machines
Mechanical Engineering
I.C. Engines, other types of Engines, Machines
Electrical Engineering
18 08
37
Maintenance and working of machines
Electronics
Maintenance of machines and its parts
Plastic Engineering
Silicon release and mould release agents
Chemical Engineering
Chemical Process Technology, Plant Utility, Petrochemicals and unit operations.
10.4 Functions and Engineering applications of lubricants
Practice :
Demonstration of following experiments :
i) Abel flashmeter ii) Redwood viscometer iii) Penskey Marteins apparatus
11. 11.0 Polymer Chemistry :
11.1 Plastics – Definition – types of plastics
11.2 Properties of plastics
11.3 engineering application of plastics
11.4 Rubber – natural and synthetic rubber properties –
elasticity, abrasion resistance Tack industrial
11.5 Applications of rubber.
Applications
Civil Engineering
Preparation of Plumbing machines parts, taps, washers etc.
10 04
38
Mechanical Engineering
Manufacturing Processes
Electrical Engineering
Preparations of Electric wires and cables
Electronics
Preparations of PCB and wires of machines.
Plastic Engineering
Plastic Technology, Packaging, Co-polymer of Plastics and Additives.
Chemical Engineering
Chemical Process Technology, Petrochemicals
12. 12.0 Environmental Chemistry :
12.1 Causes of pollution – air pollution types of air pollutants.
Gases – sulphur dioxide, sulphur trioxide carbon
monoxide, nitrogen dioxide, carbon dioxide, control of air
pollution.
12.2 Water pollution :
Sources of water pollution, methods of preventing water
pollution.
12.3 Radioactive pollution
12.4 Noise pollution
12.5 Disadvantages of pollution
12.6 Control of Pollution
14 03
39
Applications
Civil Engineering
Drainage and Water Supply, Sewage Treatment
Mechanical Engineering
Thermodynamics and I.C. Engines
Electrical Engineering
Recycling of Electrical Goods
Electronics
Recycling of Electronic Goods
Plastic Engineering
Recycling of Plastics, Pollution control, Chlorofluoro Carbons and Decrease of carbons in Atmosphere
Chemical Engineering
Pollution Control and Waste Disposal, Plant Utility
And Petrochemicals.
Total Number of Marks=82; Theory Hours= 32; Practical Hours= 64
6. IMPLEMENTATION STRATEGY (PLANNING):
1. Theory topics and practice experiments should be done simultaneously. This will help the students to understand the topics.
2. Question papers for the periodical test should cover the topics which have been taught. To test the understanding.
7. REFERENCE :
Sr.No. Author Title Publishers & Address
40
1. Jain and Jain Chemistry of Engineering Materials Dhanpat Rai Publishing Co. New Delhi
2. Narkhede & Thatte Engineering Chemistry -
3. Mahadeokar & Dr. U.P. Kodgire
Chemistry for Engineering students Everest Publishing House, Pune
4. B.S. Godbole Applied Chemistry Satya Prakashan, New Delhi
41
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC 1. SUBJECT DETAILS
Course : Plastics Engineering Semester: I
Subject : Fundamentals of Computer &networking system Duration : 16 weeks
Group : Core C* Code: CA-54
Compulsory
2.TEACHING & EXAMINATION SCHEME
Teaching Scheme Credits Examination Scheme and Maximum Marks
Pract Tut Paper Theory
Hrs Per Wk.
Hrs per
wk
Hrs
per
wk
Hrs. N/P Mks
TH Reduced
to
SessionalMarks
T/W
Pract
Total
2 4 - 6 - - - - 20 50 50 120
3. RATIONALE: This subject envisages to make the students know the fundamentals of computer systems and its organization. It will enable the students to comprehend the organization and working of various units of personal computer system for storing and processing information. It will also help the students to have hands on experience of operating systems and different application software used for office automation, day to day problems sharing in particular for creating business documents, data analysis graphical representations and business presentations. It also deals with basics of Internet technology available services internet connectivity and accessing information on internet. The student will also familiarize themselves with case study on Linux o.s., its design architecture, command structures, utilities and Linux.
4. OBJECTIVES:
The student will be able to:
1. Get familiarized with computerization.
2. Utilize computers in engineering /technical field.
42
3. Use computer concepts for Microsoft applications
4. Promote Computer Literacy and Programming Skills.
5. Made to expose towards computer area.
6. Learn networking concepts
7. Operate Internet/e-mail facility
8. Study of Linux as Operating System and Shell Programming.
5. DETAILED CONTENTS :
Chapter Content Marks Hours 1 1.0 Fundamentals of Computer concepts
1.0 To acquaint with computer Hardware and Software, To get familiar with various operating system (DOS); 1.2 To use DOS internal commands ;To familiarise with DOS external commands; 1.3 To study of computer specifications PC,PC-XT, PC-AT, Pentium and its applications, 1.4 General architecture of computers; Computer peripherals ( I/O
Device ),CD player , Storage units , floppy diskette , printers and output peripherals;
1.5 General computer terms, computer software, applications software, operating systems, utilities packages, languages, advantages of software and application packages.
Practice: 1. Study of Computer hardware and peripherals
20 06
2. 2.0 Introduction to Windows: 2.1 Structure of a Window, Basic techniques for working in Windows. 2.2 Using Menus 2.3 Working with A dialogue box, Type of Options 2.4 Starting Windows , Task Bar, Start Menu Practice: 1. Study of DOS Internal and External Commands 2.Getting started with Windows by using different menus
and working with dialogue box
3. Study of Control panel , Screen saver and Help
commands using Windows
10 05
43
3. 3.0 Introduction to WORD package 3.1 Starting Word; The Word Screen; Getting to Word Document: 3.2 Typing and Editing : Editing text, Copying and Moving, Typing
Special Characters (Symbols ); 3.3 Some common features: Changing the case of text, Moving &
copying text with drag and drop, Justifying text. 3.4 Creating bulleted & numbered lists, Arranging and moving between
open documents. 3.5 Finding and replacing, formatting. 3.6 Using the spell checker, Checking grammar. Practice: 1. Creating, Editing and Saving a document , Table using Word package creating
2. Document with Table ,editing using special characters &
saving.
3. Study of tool bar menus like Standard , Formatting ,
Tables and Borders
4. Study of spell check , find , replace , go to , page setup ,
print preview and print commands.
15
02
4 4.0 Concepts of POWER POINT 4.1 What is Business graphics : Types of Business Graphics, How to make an effective presentation, 4.2 Physical aspects of presentation; A Presentation Graphics package ; 4.3 Creating a presentation : creating a Title slide, Creating a Graph,
Creating Tables, Make Organization Chart, To Save and close presentation; Working with Tools: Create , Edit, Move, Delete , Resize , Format text object, Working with Graphics tools;
4.4 Slide show Practice: 1. Creating a new presentation and getting acquainted with various menus like FILE, EDIT, VIEW, INSERT, FORMAT, TOOLS, SLIDESHOW 2 Choosing Auto Layout and working with tools and to
prepare a slide show
3. To study special effects using one slide show
demonstration
15 02
5 5. 0 Fundamentals of EXCEL 5.1 Starting EXCEL: What is a spreadsheet creating & editing
spreadsheet, modifying the sheet. 5.2 Study of Toolbars, Formula bar and Status bar. 5.3 Inserting Header and footer, cells, rows, columns, worksheet.
15 02
44
5.4 Formatting individual cells row, column, sheet, manipulating data by using Sort.
5.5 Saving and Retrieving saved worksheet. Practice: 1.Creating Spread Sheet for various combination of computational tables.
SECTION-II 6 6.0 Linux Fundamentals
6.1 Linux Fundamentals:- Basics of Unix and Linux. 6.2 Multi-User and Multitasking capacities of Linux, change of password,
the file types, structure of file system, important directories of the file system.
Practice: 1.Linux basic commands. 2.Linux Advanced commands
25 06
7 7.0 Introduction to Shell Programming : 7.1 What is Shell 7.2 Tools for working with Linux and Shell programming, Function of
Shell 7.3 Access permission of file in Linux, editing files with V1, important
commands related to V1 editor. 7.4 Introduction to Bash Shell Basics, Shell Bash variables, basics scripts
element (input/output). 7.5 Simple Shell Programs. Practice: 1.CREATING FILE USING V1 editor, editing, saving file and
quit from V1 editor. 2. Study of different run levels. 3. Shell programming-I 4. Shell programming-II. 5. Study of KDE environment
24 05
8 8.0 Networking and LAN commands 8.1 Network Concept and classification; 8.2 Local Area Network(LAN) : LAN Topology, LAN Software/ Operating System. 8.3 LAN commands and elementary Administrative commands like ATTACH, BROADCAST CAPTURE, LOGIN, LOGOUT, MAP, REVOKE, RIGHTS, SYSCON, SYSTIME. Practice: 1. Networking concepts and LAN commands.
2.Introduction to administrative command like Create
Users, Mapping , Assigning , etc.
20 02
9 9.0 Introduction to INTERNET : 9.1 What is INTERNET, Application of INTERNET 9.2 E-mail, TELNET, WWW, Study of various search engine using LYNX, LOGIN PROCEDURE. 9.3 Study of INTERNET EXPLORER, Creating mailing account, Difference between SHELL and TCP/IP account. 9.4 Surfing using WORLD WIDE WEB information relating to
employment, education, alumni. Practice: 1. Internet terms , Use of Shell account and study of mailing , Software to send & receive mail on
20 02
45
Hard Disk.
2. To study internet explorer package & retrieve education
related information from TCP/IP account and downloading procedure.
Note:- Minimum of twelve experiments must be performed /completed in journal for approval of term work acceptance other than the 75% requirement of attendance.
Sr. Main Topics No. of Marks Weightage No. Contact Hrs. % # M / E / D
1. Fundamentals of Computer concepts 06 20 12 E
2. Introduction to Windows 05 10 07 E
3. Introduction to WORD package 02 15 09 M
4. Concepts of POWER POINT 02 15 09 M
5. Fundamentals of EXCEL 02 15 09 M
6. Linux Fundamentals 06 25 16 M
7. Introduction to Shell Programming 05 24 14 M
8. Networking and LAN commands 02 20 12 M
9. Introduction to INTERNET 02 20 12 E
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
Total 32 164 100% # (# M=Most Essential, E=Essential, D=Desirable) Section I 1. Fundamentals of Computer Concepts 2. Introduction to Windows 3. Introduction to Word Package 4. Concepts of POWER POINT 5. Fundamentals of EXCEL
Section II 6. Linux Fundamentals 7. The File System in Linux 8. Introduction to Shell Programming.
9. Networking and LAN Commands
10. Introduction to INTERNET.
46
Total Theory Hours = 32 Hrs
Total Practical Hours = 64 Hrs
List of Practicals :
1. Study of Computer hardware and peripherals 2. Study of DOS internal and external commands 3. i) Getting started with windows by using different menus and
working with dialogue box ii) Study of control panel, Screen saver and HELP commands using windows.
4. i)Creating , Editing and Saving a document, Table using Word package creating Document with table , editing using special characters and saving. ii) Study of tool bar menus like Standard, Formatting, Tables and Borders iii) Study of spell check, find, replace, go to, page setup, print preview and print commands.
5. i) Creating a new presentation and getting acquainted with various menus like FILE, EDIT, VIEW, INSERT, FORMAT, TOOLS, SLIDESHOW ii) Choosing Auto layout and working with tools to prepare a slideshow iii) to study special effects using one slide show demonstration
6. Creating spreadsheet for various combinations of computational tables.
7. LINUX basic commands 8. LINUX Advance commands 9. Creating file using editor, editing, saving file & quit from
editor. 10. Study of different levels. 11. Shell programming I 12. Shell programming II 13. Study of KDE environment 14. Networking, concepts & LAN commands 15. Introduction to administrative commands like create users,
Mapping, Assigning etc 16. Internet terms, Use of shell account, and study of mailing,
Software to send & receive mail on harddisk. 17. To study Internet explorer package and retrieve education
related information from TCP/IP account and downloading procedure.
Note : Minimum of twelve experiments must be performed/completed in journal for approval of termwork acceptance other than the 75% requirement of attendance.
6. REFERENCE BOOKS :
47
Sr. No.
Author Title Edition Year of Publication
Publishers & address
1 Hunt & Shelly. Computer and Common sense
2 V. Rajaraman Computer Fundamentals ( Prentice hall)
3 PC Guide for Windows (ITC Publication /
Galgotia publication)
4 Galgotia.
Learning Word 6.0 for Windows step-by-step
5 Preilerson Linux: The computer reference – 5/E
6 Unleashed Linux
7 Mastering MS Office BPP Publication
8 U.D. Black Data Communications and Distributed Networks
Prentice-Hall
48
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits Examination Scheme and Maximum Marks
Paper Theory
Hrs Per
Week
Practical
Hrs per
Week
Hrs NP Mks
TH Sessional T/W
Oral Total
02 06 08 3 01 100 80 20 50 50 200
3. RATIONALE:
Engineering drawing is a language of engineers. It is classified as engineering science subject. It describes scientific facts, principles and technique of drawing in order to visualize and express the ideas and to convey the instructions through drawings without ambiguity. In engineering drawing – I, student will study concept of orthographic projections, isometric projection, isometric view, ideas of two dimensional and three dimensional objects, oblique, projections, curves etc.
4. OBJECTIVES:
Engineering drawing helps in understanding design of parts, assembly, structure etc. used in engineering field. It supports technology and technical subjects. By achieving visualization and drawing skills, the student will successfully discharge his role on shop floor, design department and inspection department etc.
Course: Plastics Engineering Semester : I
Subject: Engineering Drawing – I Duration : 16 Weeks
Group: Core C* Code : ME-16
Compulsory
49
5. DETAILED CONTENTS:
Chapter Content
SECTION-I
Marks Hours
01 1.0 Introduction : 1.1 Importance of Engineering Drawing for the study of
technical courses
1.2 Drawing instruments, types of lines and dimensioning
(lettering and numbering for term work or assignment)
Practice :
1. A2 size sheet to be drawn containing four problems on
letter lines and dimensioning techniques.
2. Home Assignments: One sheet containing four problems
02
03
09
02 2.0 Principle, Planes and Quadrants:
2.1 Concept of principle planes and quadrants
2.2 I and III angle method of projections
- 02
03 3.0 Orthographic Views :
3.1 Projections of various objects having flat and curved surfaces
using 1st and 3rd angle projection method.
Practice:
1.One sheet on orthographic projection for objects with linear
features
2. Home Assignments: One sheet containing four problems
-
-
02
12
04 4.0 Conversion of Pictorial View :
4.1 Conversion of pictorial views in to non-sectional
20
05
50
orthographic views. The objects may have slots, holes
cavities etc.
Practice:
1. One sheet with non sectional orthographic views for the
objects with curvilinear features.
2. Home Assignments: One sheet containing four problems
-
12
05 5.0 Oblique Projections :
5.1 Oblique projections of curvilinear feature on non oblique plane
only.
Practice:
1.One sheet having four problems of oblique projection for
the curvilinear features on non oblique plane.
2. Home Assignments: One sheet containing four problems
30
-
04
12
06 6.0 Engineering curves :
6.1 Cycloidal curves: Cycloid, epicycloids, hypocycloid
(Simple cases)
6.2 Involute of circle and polygon (simple cases)
6.3 Helix on cylinder (not on cone) Practice:
1. One sheet with four Problems containing cycloid, epicycloids,
hypocycloid , Involute and Helix.
2. Home Assignments: One sheet containing four problems
30
-
04
12
SECTION-II
51
07 7.0 Conversion of Pictorial View in Sectional Orthographic: 7.1 Conversion of pictorial views with cutting plane into
sectional orthographic projection (full section only)
Practice:
1. Four problems on sheet( full section plane)
2. Home Assignments: One sheet containing four problems
20 04
12
08 8.0 Isometric Views and Projections:
8.1 Isometric Views and Projections of linear and curvilinear
features.
Practice:
1. One sheet with four problems on Isometric view having
linear and curvilinear features.
2. On sheet with four problems on Isometric projection having
linear and curvilinear features.
3. Home Assignments: One sheet containing four problems
40 05
12
09 9.0 Engineering Curves:
9.1 Ellipse: Oblong, arcs of circle and concentric circle method.
9.2 Parabola: Eccentricity and rectangular methods.
9.3 Hyperbola : Eccentricity and rectangular methods.
Practice:
1. Four problems on Ellipse Parabola and Hyperbola
2. Home Assignments: One sheet containing four problems
20 04
12
52
6. IMPLEMENTATION STRATEGY (PLANNING) :
In depth study and understanding of the subject will be implemented by adoption of
the following strategy :
1. Theory Teaching Plan 2. Term Work Plan for practical giving problems to draw in the class. 3. Home assignment to practice at home 4. Conduct of three periodical test 5. Use of OHP models and charts during theory class and practical periods
7. REFERENCE BOOKS :
Sr.No.
Author Title Edition Year of Publication
Publishers & Address
1. N.D.Bhatt and Panchal
Geometrical and Machine drawing
14th 2000 Rupalee Pub.Opp.
Amul Dairy, Court
Rd, Anand
2. R.K. Dhawan Engineering drawing 2nd
2001
S.Chand & Co.Ltd., Ram Nagar
New Delhi-110 055
3. R.K. Dhawan Machine drawing 2nd
2001
S.Chand & Co. Ltd ,Ram Nagar
New Delhi-110 055
4. M.L. Dabhade Engineering Graphics 4th 1995 Mrs.VA.Velhankar
1030, Model Colony,
B-12,Akash Ganga
Pune-411 016
53
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
(1) SUBJECT DETAILS
(2) TEACHING AND EXAMINATION SCHEME :
Scheme of Instructions and Periods per Week
No. of papers, duration and Marks
Scheme of Examination Scheme
L/Pr/Cr
L P D T Cr NP Hrs Mks SSL Th paper
T/W
Prac Oral Total
- 5 - 5 - - - - - 50 - 50 100 055
(3) RATIONALE :
Production is a value adding activity, where raw material is converted into finished goods, by using different resources like man, machine, rnaterial,methods.etc. Handling of different tools & equipments is a part of production system. So students should be aware of methods of handling of different tools and safe practices. This subject deals with identification of tools, its applications, precautions, handling procedures, etc.
(4) OBJECTIVES :
1) The students will be able to understand workshop activities. 2) They will be able to select right tools and right manufacturing processes for performing the job correctly 3) They will be able to use different fitting tools like Files, hacksaws, hammers, Try square, chisel (cross-cut chisel),centre punch etc and carpentry tools like cross-cut saw, jack plate,firmen chisel, rasp file, marking gauge,mallet,scriber etc. 4) They will be able to read dimensions and able to do marking required for making the job.
Course : Plastics Engineering Semester : I
Subject : Workshop Technology Duration : 16 Weeks
Group : C* Code : ME-26
Compulsory
54
5) Practical 5 periods per week (two times)
Title Hrs 1)Demonstration of carpentry tool (25) & One carpentry joints 2) One pattern (25) 3) Demonstration of fitting tools (15) & One job of drilling ahd tapping 4) One job of keywày (15) (15) Sawing/filing Total -80
Assignment:(1) Notebook containing the procedure and the diagram of above jobs (2) Notebook containing write-up from Workshop practices TTTI Bhopal book on above hand tools.
Scraper and Small Tools 11.1 Use of scraper and material used for making a scraper 11 .2 Types of Scraper 11.3 Scraping process 11.4 Precautions 11 .5 Small tools such as spanner, plier, prick punch, center punch, and screw driver with its applications
(5) PRACTICALS :
Sr No Title Hrs
1 Carpentry : Two Carpentry Joints, two patterns and one simple job involving wood
Turning
35
2 Fitting :
1) Two exercises in fitting 2) One job of drilling and tapping 3) One job of chipping
45
Total 80
(6) IMPLEMENTATION STRATEGY (PLANNING):
(i)Lectures.
(ii)Transparencies/Charts
55
(iii)Practical Jobs In Workshop
(iv)Attending seminars on safety
(7) REFERENCE BOOKS:
Sr.No. Author Title Year of Publication
Publishers & Address
1. S. K.Hajra Choudhary
Elements of Workshop Technology
1997 Media Promoters & Publishers
2. B.S.Raghuwanshi
A course in Workshop Technology Vol I
1997 Dhanpatrai & Sons
3. W.A.J. Chapman Workshop Technology Vol I,II,III
1998 Viva Books (P) Ltd
56
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE: PLASTICS ENGG. FULL TIME w.e.f. batch admitted June, 2008 (Progressively)
SEMESTER: SECOND TEACHING & EXAMINATION SCHEMES Effective from the Academic Term
July/November 2008
Sr
No
Subject Subject Code
Scheme of Instructions and Periods per week
No.of papers,
duration and marks
Scheme of Examination Gr Scheme L/P/Cr
L P D T Cr NP Hrs Mks SSL Paper T/W PR OR Total
1 Development of Generic skill
DG-1 2 - - - 2 01 03 100 20 80 - - - 100 B* 202
2 Mathematics-II MA-25 3 - - 1 4 01 03 100 20 80 - - - 100 B* 404
3 Physics SC-17 4 4 - - 8 01 03 100 20 80 25 50 - 175 B* 448
4 Applied Mechanics AM-16 3 2 - - 5 01 03 100 20 80 25 - - 125 C* 325
5 Engineering Drawing-II ME-36 2 - 6 - 8 01 04 100 20 80 50 - 50 200 C* 268
6 Fabrication Technology ME-46 2 4 - - 6 01 03 100 20 80 25 - 50 175 C* 246
TOTAL 16 10
6 1 33 06 PAPERS 875
TOTAL PERIODS = 19 TOTAL MARKS = 875
* Compulsory
L- Lecture Period SSL- Sessional P- Practical Period T/W- Term Work
(1) Unless stated, T.W. will be assessed by the Internal examiner D- Drawing Practice Period Pract- Practical based on considering the continuous assessment NP- No.of Papers Cr- Credit
by the concerned internal faculty Mks - Marks
(2) Unless stated, Practical, Practical/Oral (P/O), oral will be
jointly by the internal and external examiners.
57
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS
Course: Plastics Engineering Semester: II
Subject: Development of Generic Skills Code :DG-1
Group: Basic B* Compulsory
2.Teaching and Examination Scheme
Scheme of
Instructions &
Periods per Week
Scheme of Examination
Subject
Lect
ure
Pra
c. O
r D
rg.
Tut
oria
l
No of Papers, Duratio
n & Marks
Ses
sion
al W
ork
Pap
er
Ter
m W
ork
Pract. Exam
Tot
al
Det
aile
d S
ylla
bus
Ref
. No.
Sch
eme
L.P
r./C
r.
Development of
Generic Skill 2
1.3
Hrs
, 10
0 M
ar ks
20
80
100
303
58
2. RATIONALE
The skills of Project Management have become important in all types of business and at all levels of work hierarchy. The purpose of development of Generic Skills is to develop the necessary skills, which will make students confident and competent in managing and executing engineering projects.
3. OBJECTIVES
Over a period of time it has been observed that effectively of polytechnic students, their utility at work place can be enhanced by imparting generic skills right from entry in the polytechnic. The generic skills are life skills, they are lifelong skills, whose edge needs to be sharpened every moment.
The content is divided into 4 logical units:
1. Information 2. Communication Skills 3. Self Development 4. Task Management
It is designed by keeping self in focus with a clear objective of developing Generic Skills, to enhance the capabilities in the field of searching, assimilating and using information on job. Developing self and managing given tasks, finally to present himself as a technomenger.
It is an effort to develop student that enables him to be successful in finding a practical and reaction solution to any problem he comes across. It covers more or less all aspects of life skills. The development of subject is progressively ascending parallel to development of study in polytechnic.
4. Theory Contents:
1. Information Sources (Periods:2hrs; Mks-10)
Introduction, Types of Information sources, Print Media, Documentary Sources, Non-Documentary Sources, Non-Print Media, Electronic Media, Conclusion.
2. Information Centre (Periods:2hrs; Mks-10)
Introduction, Classification, Services, Conclusion.
3. Procedure for Information Search (Periods:4hrs; Mks-20)
59
Introduction, Need of Approach, Types of Approach, Steps for Information Search, Preparation of Biographic Card, Preparation of Index Card, Conclusion.
4. Learning (Periods: 4hrs; Mks-20)
Introduction, Concept of Learning, Basic Model of Learning, Principles of Learning, Conclusion.
5. Memory & Cognition (Periods: 4hrs; Mks-20)
Introduction, Basic Concepts, Dual Store Model of Memory, Sensor register Characteristics, Attention,: Factors affecting attention, Figure Ground Rule, Working memory(WM); Characteristics of WM, Control Processes in WM, Long Term Memory in LTM: Characteristics of LTM, Control Processes in LTM, Organization of knowledge, Conclusion.
6. Meta Cognition & Study Strategies (Periods:4hrs; Mks-20)
Introduction, Meta Cognitive Knowledge, Self Regulated Learning, Effective Learning and Study Strategies(Covert): Selective attention, Maintain Rehearsal, Meaning learning Reflection, Internal Organization, Elaboration-----** Visualization, Effective learning strategies: Effective reading, Effective listening, Notes Taking, Conclusion.
7. Learning on Job (Periods: 4hrs; Mks-20)
Introduction, Definition, Identify General and Specific Skills, Workplace as a System, Types of System, Conclusion.
8. Learning Practical Skills (Periods: 2hrs; Mks-10)
Introduction, Process of Performing the job, Domains of Learning Job, Conclusion.
9. Testing of Acquired Skills (Periods:2hrs; Mks-10)
Introduction, Objectives, Process for Skill Analysis, Conclusion.
UNIT II COMMUNICATION SKILLS
10. Basis of Communication (Periods:2hrs; Mks-10)
60
Definition, Concept of Communication, Communication Cycle, Communication, Conclusion.
11. Techniques of Communication (Periods: 2hrs; Mks-10)
Introduction, Oral Communication, Written Communication, Body Language, Conclusion.
S. No. Main Topics No of Contact Hrs
Marks Weightage
%
#M/E/D
1 Information sources
2 10 7 E
2 Information Centre
2 10 7 E
3 Procedure For Information Search
4 20 11 M
4 Learning 4 20 11 M
5 Memory and Cognition
4 20 12 M
6 Meta Cognition & Study Strategies
4 20 12 D
7 Learning on Job
4 20 12 E
8 Learning Practical Skills
2 10 7 E
9 Testing of Acquired Skills
2 10 7 D
10 Basic of Communication
2 10 7 E
61
11 Techniques of Communication
2 14 7 E
Total 32 164 100% #
(# M = Most Essential, E = Essential, D = Desirable)
Section I
1. Information Sources 2. Information Centre 3. Procedure for Information Search 4. Learning 5. Memory & Cognition
Section II
6. Meta Cognition and Study Stratifies 7. Learning on Job 8. Learning Practical Skills 9. Testing of Acquired Skills 10. Basic of Communication 11. Techniques of Communications
Total Theory Hours : 32 Hrs.
Reference Books:
Learning to learn by Kenneth A. Kiewra
Independent Study techniques by P.D. Kulkarni & B.B. Sharma
Additional References:
101 ways to better communication by Elizabeth Hieney.
62
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
2. TEACHING AND EXAMINATION SCHEME: Scheme of Instruction and Periods per week
No of papers, duration and
Marks
Scheme of Examination Scheme L/Pr.Cr.
L P D T Cr Np Hrs Mks SSL Theory Paper
T/W Pract Oral Total
3 - - 1 4 1 3 100 20 80 - - - 100 404
3. RATIONALE :
1. Creating aptitude for Mathematics of Higher Semesters 2. Focusing attention of problem solving in liberal sense. This aspect should take care of (a) Intelligent combination of techniques. (b) Mathematization or mathematical modeling of problems involved in various branches of knowledge. 3. Nurturing the higher order mental process of logical reasoning with rigor and precision. 4. OBJECTIVES:
There topics are introduced as
1. Prerequisite for many topics such as integral calculus, differential equations, Fourier series etc. to be studied later.
Course: Plastics Engineering Semester: II
Subject: Mathematics – II (MA-25) Duration: 16 Weeks
Group: Basic (B *) Compulsory
63
2. To introduce the applications commonly required.
5. DETAILED CONTENTS:
Chapter Content
SECTION – I
Marks Hours
01 Co-ordinate Geometry
1.1 Straight line: Slope of a line; X and Y intercepts of a line, point of
Intersection of two straight lines, Acute angle between intersecting
lines, Perpendicular distance of a point from the line, distance
between two parallel lines.
12 40
1.2 Circle: Centre-Radius form of an equation of a circle, General
equation of a circle.
10 32
1.3 Equation of a chord, tangent and normal to any circle. 02 10
(24) (82)
SECTION – II
02. Complex Number
2.1 Definition of a complex number 02 06
2.2 Elementary Operations 02 06
2.3 Polar form of a complex number, exponential form of a complex number
04 14
2.4 Argand diagram 02 06
64
6. IMPLEMENTATION STRATEGY (PLANNING):
Conducting lectures as per the teaching plan and conduction tutorials.
7. REFERENCE BOOKS:
Sr.No.
Author Title Year of Publication
Publishers & Address
1. S. P. Deshpande
Mathematics for Polytechnic Students – I & II
1998 Pune Vidyarthi Graha Prakashan,
Pune-30
2. G. V. Kumbhojkar
Engineering Mathematics-I & II 1999 Jamnadas & Co
3. Patel /Rawal & others
Applied Mathematics-I 2002 Nirali Prakashan, Mumbai
3. Vector Algebra
3.1 Sealars and Vectors
01 04
3.2 Addition of Vectors. 01 04
3.3 Dot product and cross product 01 04
3.4 Scalar triple product 01 04
3.5 Application: work done by a force, moment of a force about a point.
Area of a parallelogram Area of a triangle .Volume of the
Parallepiped
04 08
04.
Function
4.1 Values of a function, type of functions
02
10
4.2 Limits 04 16
(24) (82)
65
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS :
2. TEACHING AND EXAMINATION SCHEME :
Teaching Scheme Credits Examination Scheme and Maximum Marks Scheme
Paper L/Pr/Cr Theory
Hrs. Per Week
Practical
Hrs. Per Week
Hrs.
Np Mks
TH SSL T/W Pract
Total
04 04 08 03 01 100 80 20 25 50 175 448
2. RATIONALE: The student has to attain a remarkable knowledge level regarding properties of materials and laws of Physics. This foundation is required at the First Year Diploma Level of various branches of Engineering and is laid by incorporating a Theory and Practical approach with due stress on practical application aspect of the subject. This is emphasized by widening scope for laboratory work, selecting such text and specialized reference books.
3. OBJECTIVES: After acquiring knowledge of Laws of Physics and co-relation of its principles, the Student will:
(i) Be able to understand Application (of theoretical principles) to work (ii) Appreciate the importance of precision involved in measurements.
Course : Plastics Engineering Semester : II
Duration: 16 weeks
Subject : Physics Code : SC – 17
Group : Basic B* Compulsory
66
4. DETAILED CONTENTS:
A. THEORY CONTENTS :
Marks Period
Unit: Introductory talk - 04
To appreciate : Assertion of the statement which specifies relation between Engineering
and Applied Physics.
To understand Importance of implementing precision measurements.
Chapter: (i) Subject introduction with review of past work – `Science`, Physics`, Matter
and its structure, forms; `Physics` as science of measurement; unit; systems-
CGS, MKS etc. multiplies and submultiples
(ii) SI units and Standards- meter(m), kilogram (kg), second (s), degree Kelvin
(K), candela (cd), ampere (A), mole
SECTION-I
Marks Hours
Unit- I General Physics
26 08
Chapter 1 : Elasticity
1.1 Elasticity, perfectly elastic, plastic’,’ rigid body. 1.2 Stress, Strain, Hooke`s law; Modulus of elasticity. 1.3 Young`s modulus, Bulk modulus, Rigidity modulus; Poisson`s ratio. 1.4 Young`s modulus by Searle`s apparatus, constant of elasticity. by Searle`s
method. 1.5 Elastic behavior of wire 1.6 Engineering applications. 1.7 Numerical problems.
67
Chapter 2: Viscosity
2.1 Viscosity, Streamline flow; critical Velocity.
2.2 Newton`s Formula; Coefficient of viscosity; `poise`.
2.3 Poiseuille`s equation, Poiseuille`s Method
2.4 Stokes` law; Stokes; formula; Stokes method.
2.5 Reynold`s number.
2.6 Applications.
2.7 Numerical problems
Unit-II Heat and Thermodynamics
30 12
Chapter 3: Thermometry :
3.1 Zeroth law of thermodynamics.
3.2 Platinum resistance thermometer, Standard gas thermometer,
Optical pyrometer
Chapter 4 Specific heats of gases – Cp and Cv
4.1 Specific heat at constant pressure and at constant volume- Molar, In terms of enthalpy 4.2 Relation between Cp and Cv
4.3 Numerical problems
Chapter 5 Concepts of Thermodynamics
5.1 Heat and energy; Joule`s law; Mechanical equivalent of heat.
5.2 First law of thermodynamics
5.3 Isothermal and Adiabatic Processes
68
5.4 Thermodynamics processes- Reversible; Irreversible.
5.5 Cycle P-V diagram
5.6 Elementary ideas of heat engine
5.7 Concept of entropy
Chapter 6: Heat Transfer – Conduction
6.1Heat conduction- idea of steady states; temperature gradient ; co-efficient of thermal conductivity.
6.2Thermal conductivity of a good conductor- Searle`s method
6.3Thermal conductivity of an insulator- lee’s method.
6.4Thermal conductivity of rubber tube by calorimetric
6.5Temperature of interface
6.6Numerical problems
Unit III Sound
30 10
Chapter 7 Simple Harmonic Motion (S.H.M.)
7.1 General equations of S.H.M.; Graphical representations;
Characteristics of S.H.M.
7.2 Numerical problems
Chapter 8: Waves and Oscillations
8.1 Progressive waves(transverse and longitudinal)-equation.
8.2 Principle of superposition; Stationary waves.
8.3 Free oscillation and forced oscillations, resonance.
69
8.4 Vibrations of air column-velocity of sound by resonance tube
closed at one end.
8.5 Vibrations in strings- frequency of A.C Supply by Sonometer
8.6 Numerical problems.
Chapter 9: Intensity of Sound
9.1 Loudness and phon, intensity, decibel, Logarithmic formula 9.2 Data for various sources of sound and their intensity in decibel.
Chapter 10 Acoustics and reverberation:
10.1 Reverberation, Sabine`s formula Conditions for good acoustics, Noise reduction and sound insulation Numerical problems
10.2 Ultrasonic-production and Application; Sonic, Subsonic, Supersonic.
SECTION-II
Unit IV Optics
26 06
Chapter 11 Photoelectricity:
11.1 Photoelectric effect- Planck`s hypothesis Einstein`s equation; Characteristics
11.2 Photocell- photo emissive; photo conductive; photovoltaic Applications Numerical problems
70
Chapter 12 Elementary ideas of Interference, Diffraction and Polarization
12.1 Interference Conditions for steady interference pattern, Thin films, Newton`s rings, optical flatness, Applications 12.2 Diffraction, Grating, Applications
12.3 Polarization, Polarimeter; Photoelasticity, Applications
Unit V Electricity and Magnetism
30 14
Chapter 13 Static electricity
13.1 Coulomb`s law; Electric field; Intensity, Electric line of force
Flux density, Numerical problems, Potential;
13.2 Capacitance;` farad`;Principle of capacitor, Capacitor; Parallel
plate capacitor; Combinations: Capacitors “ In Series ”, “ In
Parallel; Energy of capacity; Numerical problems.
Chapter 14 Current Electricity
14.1 Specific resistance; Ohm`s law as applied to complete circuit- e.m.f. and p.d. 14.2 Wheatstone`s network and Wheatstone`s bridge (W.B.) (metre
bridge) Post Office Box (P.O.B.)
14.3 Potentiometer
14.4 Application
14.5 Numerical Problems.
71
Chapter 15 Electromagnetism
15.1 Current carrying conductor in the magnetic field, ‘ampere’ the SI
Unit of current.
15.2 Rectangular coil carrying current placed in uniform magnetic field,
Galvanometer-Moving coil’ ‘Mirror’, Current Sensitivity.
15.3 Principle of Shunt, Ammeter, Voltmeter.
Chapter 16 Magnetism
16.1 Magnetic materials; Dia, Para and Ferromagnetism; Modern
concept of magnetism. 16.2 Susceptibility,Magnetic hysteresis; Magnetic shielding.
16.3 Applications.
Chapter 17 Thermoelectricity
17.1 Thermocouple, Seebeck and Peltier effect; thermo e.m.f vs temperature relation. 17.2 Thermocouple as thermometer
Unit VI: Modern Physics:
30 10
Chapter 18 Bohr`s Theory for hydrogen atom
18.1 Bohr`s postulates 18.2 Radii of orbits and energies; Ryderg constant; Bohr model-Energy level diagram for hydrogen atom and spectral series.
Chapter 19 Crystal Structure
72
19.1 Crystalline and Amorphous solids, , Unit cell space-lattice cubic crystal structures- simple cubic(S.C), Body centred cubic (B.C.C), Face centred cubic (F.C.C),Atomic radius Co-ordination number, Number of atoms per unit cell; Atomic radius, Packing density.. 19.2 Atomic planes and spacing, Miller indices.
Chapter 20 Elementary ideas of Lasers and Masers
20.1 Introduction related to acronym Spontaneous and stimulated (Induced) emission, Essential requirements of laser- Active medium, Resonant cavity, Pumping. 20.2 Ammonia maser, Ruby Laser; Helium –Neon Laser.
20.3 Energy and momentum of laser photon, Properties and applications.
20.4 Holography .
Chapter 21 Band theory of solids ; Semiconductors
21.1 Energy bands in solids and classification of materials in to conductorsm semiconductors and insulators.
21.2, semiconductors Intrinsic ; Extrinsic – P Type and N Type; P-N junction.
Chapter 22 Elementary ideas of Fibre optics and Superconductivity
22.1Total internal reflection and critical angle; wave guide for light, Optical fibre- Step index, Graded index ; Applications. 22.2Principle of Superconductivity –Zero ohmic resistance; critical field; Meissner effect; Super conducting state, materials, properties and applications
Section I : Surface Tension and Capillarity Section II : Non destructive testing (N.D.T) THEORY : Introductory talk 04 HRS (INCLUDING MEASUREMENTS & UNITS) #M/E/D
UNIT NO TOPICS NO OF CONTACT
HOURS
MARKS WEIGHTAGE
I General Physics 08 26 15 M II Heat & 12 30 18 E
73
Thermodynamics III Sound 10 30 17 E IV Optics 06 26 15 E V Electricity &
Magnetism 14 30 18 M
VI Modern Physics 10 30 17 D TOTAL 64 172 100 # M : Most Essential E : Essential D : Desirable
LIST OF EXPERIMENTS
Experiments to be performed : Section-I (ANY 09)
1 Use of Measuring Instruments – Vernier Callipers, Micrometer Screw Gauge, Spherometer
2 Elastic Constants by Searle’s Method
3 Young”s Modulus by Searle’s Apparatus
4 Surface Tension by Capillary Rise Method OR Viscosity by Poiseuille’s Method ORViscosity by Stokes’ Method.
5 Thermal Conductivity of a Good Conductor by Searle’s Apparatus
6 Ratio of Specific Heats Cp/Cv by Clement and Desorme’s Apparatus
7 Thermal Conductivity of Rubber Tube by Calorimetric Method.
8 Thermal Conductivity of an Insulator by Lee’s Method
9 Velocity of Sound by Resonance.
10 Velocity of Sound by C.R.O
11 Frequency of A.C. Supply by Sonometer and Verification by C.R.O.
Section – II (ANY 08)
12 Study of Spectrometer (Minimum Deviation and Refractive Index and Angle of Prism
13 Wavelength of Laser Beam (He-Ne ) by Diffraction Grating.
14 Specific Rotation by Polarimeter
74
15 J’ by Electrical Method and Specific Heat of Oil by Electrical Heating.
16 Use of Wheatstone’s Bridge and Post Office Box (Resistance, Specific Resistance and Temp.Coefficient of Resistance).
17 Use of Potentiometer (Principle, Comparison of e.m.f.s of Cells, Internal Resistance of Cell and Calibration of Voltmeter with the Principle COMPULSORY and ANY ONE of the Other Three).
18 Wavelength of Light by Diffraction Grating
19 Determination of Rydberg Constant.
20 Study of Crystal Structure.
Demonstration Experiments : (ANY 07)
(i) e.m.f. of a Thermocouple
(ii) Spectra of Ionised Gases
(iii) Poisson’s Ratio for Rubber Tube
(iv) Study of Photocell
(v) Temperature of Flame (Optical Pyrometer)
(vi) Hysteresis by C.R.O.
(vii) Study of Newton’s Rings
(viii) Study of Para and Diamagnetism by Electromagnet
(ix) Study of Ultrasonics
(x) Study of Photoelastic Bench
(xi) Optical Principles of O.H.P
(xii) Use of Precision Measuring Instruments (Dial Vernier, Dial Micrometer, Travelling Microscope etc.)
Term-Work :
75
Compulsory term-work on the list of experiments written in a journal and carrying 50 marks on timely submission basis specified at the index sheet of Physics Journal.
Scheme of Practical Examination :
1 Each candidate will be examined in one experiment from among those prescribed in the syllabus. The duration of the experiment will be two hours
2 Each candidate will be asked to draw by lots any two experiments (one from section-I and the other from section-II). Out of the experiments so drawn by him/her, he/she will be asked to prefer any one experiment which he/she will be able to perform with confidence.
Change of experiment shall be discouraged and if absolutely necessary, 05 marks will be deducted for the same after due verification of the laboratory records of the candidate.
3 The performance of the candidate in the practical examination will be assessed out of 50 Marks as shown in the following scheme
Scheme of assessment :
(a) Connections, adjustment and Observations ………. 20 Marks
(b) Circuit diagram, figures and tabulation ……………10 Marks
(c) Formula, calculations and graphs if any …………...10 Marks
(d) Oral ………………………………………………... 5 Marks
(e) Correct answer or appropriate result ………………. 5 Marks
________
Total : 50 Marks
4 Each candidate will be jointly examined by both external and internal examiners
76
5 Certain demonstration experiments are coupled with certain conventional experiments during the examination. Marks allotted for demonstration experiments are 15 and marks for conventional experiments are 35. The conventional experiment is assessed out of 50 as mentioned under 4 in the above scheme and then converted out of 35. Assessment of a demonstration experiment is judged by answers (Oral or Written) given by candidate in front of the relevant demonstration set up.
6 If any candidate is unable to draw a correct circuit diagram, the same may be given by the examiner on request so that the candidate may continue the experiment. However, five marks will be deducted for the same
7 While assessing, the overall performance and the ability of the candidate
to handle the apparatus independently, will be considered.
6. IMPLEMENTATION STRATEGY (PLANNING) :
1. Theory- Lesson Plan 2. Practical – Scheme of marking for T/W; Scheme of assessment for Pract. Exam.
7. (a) TEXT BOOKS :
Sr.No.
Author Title Edition Year of Publication
Publishers & Address
1. R.K.Gaur and S.L. Gupta
Engineering Physics Any 181-96
2001 Reprint
2004
Dhanpat Rai & Sons.
2. M.R. Shrinivasan Physics for Engineers Any 1976 New Age International
3. P.G. Kshirsagar and M. N. Avadhunulu
A Text Book of Engineering Physics
Any 1992 Reprint
93, till 05
S. Chand and Co. Ltd
4. Gambhir, Durgapal and Banerjee
Introductory Physics, Vols. 1, 2 and 3
Any 1972 Wiley
Eastern
77
(b) REFERENCE BOOKS :
Sr.No.
Author Title Edition Year of Publication Publishers & Address
1. Resnik and Halliday
Physics, Vols. 1 and 2 Any 1986 Wiley Eastern.
2. B.L. Theraja. Engineering Physics Any 1062
Reprint 74-87
1975,
76,78,79,80,81,82,83
S. Chand & Co. Ltd
3. B.L. Theraja. Modern Physics Any 1062
Reprint 74-87
1975,76,78,79,80,81,82,83
S. Chand & Co. Ltd
4 Manikpure Applied Physics - 2002 S.Chand Co Ltd New Delhi
5 S.P.Paranjpe Applied Physics - 2002 Central Techno Pub, Nagpur
78
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering SEMESTER :II
Duration : 16 weeks
Subject : Applied Mechanics Code : AM-16
Group : C* Core Compulsory
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits
Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs. per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
03 -- 02 04 03 01 100 80 20 25 -- 125
3. RATIONALE:
Applied Mechanics is the study of forces and their effect on moving or stationery bodies Also the concept of Mechanics will be useful to understand the further subjects materials and structure, analysis of structures and design.
4. OBJECTIVES:
The students will be able to
(1) Understand the force/force system and their effect on a body. (2) Apply the concept of mechanics to real situation. (3) Build the pre-requisite of higher semester subject related to designs
79
5. DETAILED CONTENTS:
Chapter Content Periods Marks
SECTION-1
1 1.0 Introduction to Mechanics. 02 06 1.1 Mechanics definition, classification, Statics & Dynamics Kinematics, Kinetics 1.2 Fundamental Units of measurement (FPS, MKS, SI), derived Units, Conversion of units, Scalars & Vectors with examples 1.3 Definition of particle, body and rigid body, mass & weight.
2.0 Resolution Of Forces 04 14 2.1 Concept of force, definition, unit, graphical representation of force 2.2 Concept of systemof forces, non- Coplanar, coplanar, concurrent, Parallel,
non-concurrent & non-parallel forces. 2.3 Resolution of a force into two components along any directions, 2.4 Resolution of a force into two components at right angles to each Other
by analytical method.
(Applications levers, chain & links, connected bodies like trains etc.)
3.0 Composition Of Forces . 04 14 3.1 Composition, Resultant of force 3.2 Law of parallelogram of forces, 3.3 Moment of force, couples lever arm, 3.4 .Varignon’s theorem 3.5 Resultant of coplanar concurrent, parallel, and non-concurrent, non parallel forces (Applications in.shafts, crane, joints of trusses, etc).
4.0 Equlilbrium 06 20 4.1 Definition of equilibrant, relation between Resultant and Equilibrant, Conditions of Equilibrium, Types of &equilibrium Stable, Unstable and Neutral equilibrium 4.2. Equilibrium of coplanar concurrent forces, Lami’ s theorem. 4.3 Equilibriuni of coplanar parallel forces and coplanar Non- concurrent Forces. 4.4 Analytical conditions of equilibrium for coplanar concurrent & Non concurrent forces.
80
(Application of crane stability, link mechanisms, inclined plane, wedges, anchor blocks for water pipe lines, balance, levers, pulley & blocks) Practicals (a) Simple roof truss (b) Bell crank lever (c) Levers of different types (d) Extension of Springs (e) Compression of springs
5.0 Beam Reactions 04 14 5.1 Types of supports (constraints),simple, roller, hinged & fixed. 5.2 Types of beams, simply supported, hinged & roller supported, Cantilever, Over hang beams. 5.3 Types of Loads, Point (Concentrated) Load, uniformly distributed load (UDL) ,Uniformly Varying load (U V L)* 5 4 Problems on above combination of loads (Applications like bearings of shafts, guy, rocker and roller supports of railway bridges) * no problems UVL
6.0 Centre of gravity 04 14 6.1 Center of gravity of solids, centroid of plane laminas,definition, 6.2 Concept of parallel forces applied to find C g, and centroid, centroidal/c g axes of a body/lamina, c g / centroid of basic regular shapes. 6.3 Application like floating bodies, dams & retaining wall sections beams columns sections (rolled steel), simple and built up sections (Applications like floating bodies, dams, retaining walls, columns etc.) Practical: (a) Centroid of Plane Laminas
SECTION – II
. 7.0 Friction 04 14 7.1 Definition, types of friction, Static friction, dynamic friction 7.2 .Fundamental laws of static friction. Coefficient of friction. Cone of friction. Angle of friction, Angle of repose, Rolling friction 7.3 Study of inclined plane wedge and block system, ladder friction. (Application in clutches, Brakes, Dynamometers, journals, Belt & Rope drives,stator & Rotor in electric motors, Bearings.) Practicals: (a) Friction between wooden surfaces (b) Friction between wooden surfaces and glass, metal surfaces
81
8.0 Rectilinear Motion 04 14 8.1 Definition of kinematics, rectilinear motion displacement, speed,
Velocity, acceleration. 8.2 Equation of rectilinear motion with uniform acceleration 8.3 Velocity — Time diagrams, motian t,aer gravity (Application to velocity of connecting rod, piston crank etc , V-T diagram for electric traction)
9.0 Force, mass and acceleration 03 10 11 Newton’s laws of ttohon , ielation l*twecn foie mass and acceleration 1 2 Applications like motion of train on slopes etc 1 3 Concept of momentum & impulse, conservátjc,ri f momentum (Application like centrifugal devices, motion of train on slopess etc power hammer, pile driving, Fly presses etc)
10.0 Work, energy and power 04 14 10.1 Work done be a body, definition, application 10.2 Energy definition and types, Potential energy & Kinetic energy, conservation of energy, Applications like energy stored in a flywheel, water reservoir etc 10.3 Power definition, Applications to rated power of machine (motors) & efficiency calculations. (Application like energy stored in a fly wheel, water reservoir, power requirements of machines, efficiency calculation in machine)
11.0 Simple Lifting Machines (Application topic) 04 14 11.1 Definition: Mechanical Advantage, Velocity Ratio, Efficiency, Relation
Between them, Friction in machine in terms of load & Effort. 11 2 Law of Machine, Maximum M A, Maximum efficiency Condition for reversibility of a machine 11.3. Study of machines — Simple and Differential Axle & Wheel 11.4. Weston differential pulley block, Simple screw jack, Worm &
Worm Wheel, Single & Double purchase crab winch, system of pulleys.
82
12.0 Graphics Statics . 05 16 12.1 Space diagram, Bows notation, 12.2 Law of Triangle of forces, Polygon of forces, Force/Vector diagram 12.3 Resultant and equilibrium of concurrent forces 12.4 Polar diagram, Funicular polygon 12.5: Resultant and equilibrium of non —concurrent and non-parallel forces 12.6. Applications in finding reactions of beams Stresses in simple frames.
Total 48 164
6. PRACTICALS :
Term Work consists of Journal containing minimum 10 experiments performed of the following in the Laboratory.
1) Extension/Compression of the spring. 2) Bell Crank Lever. 3) Two/Three Sheave Pulley Block. 4) Simple Screw Jack. 5) Single / Double Purchase Crab Winch. 6) Differential. Axle & Wheel. 7) Centroid Of Plane Lamina. 8) Slicer Leg & Derrick Crane. 9) Resultant of Non Concurrent Non Parallel Forces. 10) Friction 11) Jib Crane, 12) Graphic Statics 13) Moment Of Inertia of Fly Wheel
7. REFERENCE BOOK
Sr. No. Author Title Edition
Year of Publication
Publishers & Address
1. Dhade & Jamdar
Applied Mechanics 2nd 2002 Central Techno Publishers
2. R.S.Khurmi Applied Mechanics 19th 2001 S.Chand & Company Ram Nagar,
New Delhi
3.
A.K.Tayal Engineering
Mechanics Statics & Dynamics
9th 1998 Umesh Publications
4 Sunil M
Deo Applied Mechanics
Vol I & II 7th 2004
Nirali/Pragati Publications Mumbai
5. M.D.Dayal Applied Mechanics 1st 2000 Nandu Publishers
83
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS :
2. TEACHING AND EXAMINATION SCHEME :
Teaching Scheme Examination Scheme
Theory
Hrs Per
Week
Practical
Hrs per
Week
Credits Hrs NP Mks Th Sess T/W Prac Total
02 06 08 04 01 100 80 20 50 50 200
3. RATIONALE:
Engineering drawing is a language of engineers. It is classified as engineering science subject. It describes scientific facts, principles and technique of drawing in order to visualize and express the ideas and to convey the instructions through drawings without ambiguity. In engineering drawing – II students will study interpretation of give orthographic views to find out the missing views/sectional, no-sectional or orthographic views. It also gives concept for straight lines, planes and solids in space. They are introduced to various machine drawing by screw fastness keys and couplings.
4. OBJECTIVES :
Engineering drawing helps in understanding design of parts, assembly, structure etc. used in engineering field. It supports technology and technical subjects. By achieving visualization and drawing skills, the student will successfully discharge his role on shop floor, design department and inspection department etc.
Course: Plastics Engineering Semester : II
Duration : 16 Weeks
Subject: Engineering Drawing – II Code : ME-36
Group: C* Compulsory
84
5. DETAILED CONTENTS :
Chapter Content
SECTION-I
Marks Hours
01 1.0: Missing Views :
1.1 Given two views (f.v. – t.v. or f.v.s.v.) deriving the third view-non sectional or sectional.
1.2 Full section 1.3 Half section 1.4 Offset section concept. Practice:
1.Two sheets with four problems each.
2. Home Assignments: Two sheet containing four problems
30 07
24
02 2.0 Projection of Straight Lines :
2.1 Projections of lines inclined to both the reference planes (no traces)
Practice: 1. One sheet with four problems
2. Home Assignments: One sheet containing four problems
20 04
12
03 3.0 Projection of Planes :
3.1 Projection of planes – regular polygons and circle. inclined to both the reference planes.
Practice: 1. One sheet with four problems
2. Home Assignments: One sheet containing four problems
30
-
06
12
SECTION – II
04 4.0 Projections of Solids :
4.1 Projection of solids like prisms, pyramids, cylinders and cones with axis inclined to both the reference planes.
30
05
85
Practice: 1. One sheet with four problems
2. Home Assignments: One sheet containing four problems
- 12
05 5.0 Thread Profiles and Screw Fasteners :
5.1 Different profiles of threads
5.2 Conventional representations of left hand – right hand threads, single and multistart square threads, external and internal threads.
5.3 Different types of nuts. 5.4 Different types of bolts. 5.5 Lock nuts (Castle, slotted nut, simond’s nut etc) use of plane
and spring washers. Practice: 1. One sheet with Problems on various screw
fastners to be sketched by free hand.
2. Home Assignments: One sheet containing four problems
20
-
05
15
06 6.0 Keys and Couplings :
6.1 Detail and assembly drawing of different keys and couplings i.e. flange, oldhalm, flexible, universal etc.
Practice:
1. One sheet with problems of keys and coupling to be
sketched by free hand and problem on drawing of assembly of a coupling.
2. A problem of a coupling to draw the details from the assembly.
3. Home Assignments: One sheet containing four problems
30 05
12
09
6. IMPLEMENTATION STRATEGY (PLANNING) :
In depth study and understanding of the subject will be implemented by adoption of
the following strategy :
86
1 Theory Teaching Plan 2 Term Work Plan for practical giving problems to draw in the class. 3 Home assignment to practice at home
4Conduct of three periodical test 3 5 Use of OHP models and charge during theory class and practical periods
7. REFERENCE BOOKS :
Sr.No.
Author Title Edition Year of Publication
Publishers & Address
1. N.D.Bhatt and Panchal
Geometrical and Machine drawing
14th 2000 Rupalee Pub.Opp.
Amul Dairy, Court
Rd, Anand
2. R.K. Dhawan Engineering drawing 2nd
2001
S.Chand & Co.Ltd., Ram Nagar
New Delhi-110 055
3. R.K. Dhawan Machine drawing 2nd
2001
S.Chand & Co. Ltd ,Ram Nagar
New Delhi-110 055
4. M.L. Dabhade Engineering Graphics 4th 1995 Mrs.VA.Velhankar
1030, Model Colony,
B-12,Akash Ganga
Pune-411 016
87
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS :
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credit Examination Scheme and Maximum Marks
Papers TH Sessional T/W Practical Total Theory
Hrs. per week
Practical
Hrs. per week
Hrs Paper
No.
Marks
Marks Marks Marks Marks
02 05 07 03 01 80 20 50 50 200
3. RATIONALE :
Fabrication technology is a subject of engineering which deals with sheet metal works. Practical applications of sheet metals, press tools terminology. Applications of press tools. Various fabrications process like welding, brazing, soldering and its practical application in day to day life.
4. OBJECTIVES :
It develops understanding of properties of sheet metal. This helps to understand working & maintenance of welding equipments. Knowledge of welding Brazing & Soldering processes & cold & hot working processes.
Course: Plastics Engineering Semester: II
Subject: Fabrication Technology Duration: 16 Weeks
Code: ME – 46
Group: Core (C*) Compulsory
88
5. DETAILED CONTENTS :
SECTION – I
Hours
Chapters Contents Marks
Th Pr
1. Sheet Metal Works : 20 05
Ferrous & Non ferrous materials require for making sheets, sheet metal tools.
Properties of sheet metal, sheet metal gauges.
Sheet metal joints: types of Hems & seams.
2. Introduction to Press Tools : 40 06
Concept of shearing & punching. Principles & Methods of shearing. Definition of Blanking & Punching.
Types of dies like progressive, compound & combine die. Terminology used in dies.
3. Mechanical cold working of Metals: 22 05
Terminology used for Bending & Rolling.
Definition of rolling & bending.
Different types of cold working processes like drawing, deep working, forming, pinning, extrusion, ring & core rolling & bending.
Total 82 16
89
SECTION – II
4. Mechanical Hot working of Metals: 18 03
Meaning of Hot working, Recritelization temperature,
Different types of Hot working processes.
5. Welding: 18 05
Principle of welding, weldability, welding Representation, various welding joints.
Different types of Gas welding processes & detail of Oxy-acetylene process.
Different type’s arc welding processes like carbon, Twin carbon, Shielded metal, Submerged, TIG, MIG, and Plasma are welding.
6. Brazing: 10 03
Definition. Material used for brazing, flux used in brazing, flux materials, Brazing process.
7. Soldering: 10 02
Definition. Material used for soldering, flux used in brazing, flux materials, soldering process.
8. Bolted Joints: 14 03
Thread terminilogy. Left hand & Right hand threads. Types of bolts, nuts locking arrangements for nuts.
Total 82 16
Teaching Use of Overhead Projector, charts & Caulk Board.
90
Plane
TERM WORK :
Sr.No. JOBS Hours
01. Job of arc welding. 10 Hrs.
02. Demonstration of gas welding. 10 Hrs.
03. One job of sheet metal working including bending and shearing (Involved riveting also).
20 Hrs.
04. One simple job involving soldering/brazing. 20 Hrs.
One job of preparing nut and bolts using dies and taps. 20 Hrs. 05.
80 Hrs.
6. IMPLEMENTATION STRATEGY (PLANNING) :
1. Lesson Planning 2. Use of Transparencies (OHP) 3. Practical jobs/demonstration 4. Use of hand tools and machine tools
7. REFERENCE BOOKS :
Sr.No.
Author Title Edition Year of Publication
Publishers & Address
1. S.K. Hajara Choudhury,
A.K. Hajara Choudhury
Elements of workshop technology (vol.I)
9th 1997 Media promoters and publishers Pvt. Ltd.
3. F.J.M. Smith Basic Fabrication and welding Engg.
3rd 1984 Longman Craft student series Engg.
91
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE: PLASTICS ENGG. FULL TIME w.e.f. batch admitted June, 2008 (Progressively)
SEMESTER: THIRD TEACHING & EXAMINATION SCHEMES Effective from the Academic Term
July/November 2008
Sr
No
Subject Subject Code
Scheme of Instructions and Periods per week
No.of papers,
duration and marks
Scheme of Examination Gr Scheme L/P/Cr
L P D T Cr
NP Hrs Mks SSL Paper
T/W PR OR Total
1 Mathematics-III MA-35 3 - - 1 4 01 03 100 20 80 - - - 100 C 404
2 Strength of Materials AM-39 3 2 - - 5 01 03 100 20 80 50 - 25 175 C 325
3 Engineering Drawing-III ME-37 2 - 6 - 8 01 04 100 20 80 50 - 50 200 C* 268
4 Basic Electrical & Electronics
EE-32 4 2 - - 6 01 03 100 20 80 50 - 25 175 C* 426
5 Polymer Chemistry SC-35 3 2 - - 5 01 03 100 20 80 50 50 - 200 C* 325
6 Introduction to Manufacturing Process & Aux.Equipments.
PE-31 3 2 - - 5 01 03 100 20 80 50 - 50 200 C* 325
7 Material Science & Metallurgy
ME-07 2 2 - 4 01 03 100 20 80 25 - 25 150 C* 224
TOTAL 20 10 6 1 37
07 PAPERS 140
560 275
50 175
1200
TOTAL PERIODS = 37 TOTAL MARKS = 1200
* Compulsory
L- Lecture Period SSL- Sessional P- Practical Period T/W- Term Work
(1) Unless stated, T.W. will be assessed by the Internal examiner D- Drawing Practice Period Pract- Practical based on considering the continuous assessment NP- No.of Papers Cr- Credit
by the concerned internal faculty Mks - Marks
(2) Unless stated, Practical, Practical/Oral (P/O), oral will be
jointly by the internal and external examiners.
92
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering Semester : III
Subject : Mathematics III Code: MA – 35
Group: C Optional
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits Examination Scheme and Maximum marks
Paper Theory
Hrs/wk
Tutorial Hrs.
Per week
hrs Np Mks
TH Sessional T/W Pract
Oral
Total
03 01 04 03 01 100 80 20 - - 100
3.RATIONALE :
1. Create an aptitude for Mathematics for higher studies and creative work in Sciences and Technology. 2. Focusing attention of problem solving in liberal sense. This aspect should take care of a) Intelligent combination of techniques b) Mathematization or mathematical modeling of problems involved in various branches of knowledge. 3. Nurturing the higher order mental process of logical reasoning with rigor and precision. 4. Developing conceptual clarify habit of abstracting a given concrete situation and to put it in precise language the ingredients of the problems on hand.
4. OBJECTIVES:
Differential calculus is introduced as I. Prerequisite for many topics such as integral calculus, differential equations, Fourier series etc. to be studied later. 2. To introduce the applications commonly required
93
5. DETAILED CONTENTS:
Chapter Content Marks Hours
Section I
1 5.0 Differentiation 57 22 5.1 Definition 5.2 Derivatives by first principle 5.3 List of derivatives of standard function
5.4 Methods of differentiation 5.5 Derivatives of explicit and implicit functions 5.6 Derivatives of parametric functions 5.7 Derivative of Inverse function 5.8 Derivative of one function with respect to another function 5.9 Successive Differentiation. 5.10 nth derivative of function 5.11 Leibnitz theory
5.12 Application of derivative 25 10
(i) Geometric meaning of derivative . . (ii) equations of tangent, normal to given curve (iii) Derivative as a rate measure-velocity, Acceleration, Related rate (iv) Maxima / Minima of functions (v) Radius of curvature.
SECTION II
1.0 Integral Calculus: 82 32
1.1 Integration as inverse of differentiation 1.2 Methods of integration; substitution by parts, partial fractions. 1.3 Definite integral and their properties reduction Formulae (No proofs) 1.4 Application: Mean value and R.M. S value
6. IMPLEMENTATION STRATEGY (PLANNING):
Lectures are conducted as per teaching plan and tutorials in the class.
7. REFERENCE BOOKS
94
Sr No
Author
Title Edition Year of Publlcation
. Publishers & Address
-
1
S. P. Deshpande
Mathematics for polytechnic students
– II 1st 1998
PuneVidyarthiGriha Prakashmi,Pune
2 Dr. B. S.
Grewal
Higher Engineering mathematics
35th
2000
Khanna Publishers 2B ,Delhi
3
J: N. Wartikar P.N.Warlikar
AppliedMatheniatics 7th 1989 Pune Vidyarthi (Griha
Prakashan, Pune
4
B. M. Patel J.M.Rawal
P. B. Bahetkar K. R. Ansari D.M Hadke
A.S Singh
Applied Mathematics.
7th 2002
Nirali Prakahan, Mnnibai
95
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course: Plastics Engineering Semester : III
Duration : 16 Weeks
Subject: STRENGTH OF MATERIALS Code: AM – 39
Group : C (Core) Optional
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits Examination Scheme and Maximum marks
Paper Theory
Hrs/wk
Practical Hrs.
Per week
hrs Np Mks
TH Sessional T/W Pract
Oral
Total
03 02 05 03 01 100 80 20 50 25 175
3. RATIONALE: Strength of materials is fundamental structural engineering subject which gives idea about stresses, strains in various materials, their properties and behavior under different conditions
4. OBJECTIVES: After studying this subject, the student will be able to (1) List, define and calculate various types of stresses (2) Calculate SF and BM in flexural members. (3) Direct, Bending and torsion stresses in members / structures can he assessed with respect to permissible limits. (4) Under stand failure of materials.
Applications stated in syllabus are for illustrations and appraisal only. No theoretical derivations and proofs are to be given.
5. DETAILED CONTENTS:
96
Chapter Topics Periods Marks
SECTION-I
1 1 .0 Direct stress and strain, Tension, Compression and shear. 06 18 1.1 Hooke’s law, young modulus, Modulus of rigidity. 1.2 Bulk modulus, Poisson’s ratio. Simple shear. 1.3 Complementary shear and induced compression and tension. 1.4 Relationship of E,G and K. Temperature stresses, constraints, sliding bodies. Practical: 1. Tension test on mild steel specimen 2. Shear test on mild steel specimen. 3. Brinell hardness test. 4. Bend test on mild steel specimen. Tension test on steel flat.
2 2.0 Elementary ideas about principal planes and principal stresses, 06 16 Analytical and graphical methods, Principal strains. 2.1 Applications to clamps and presses, crane hooks, curved beams, shaft subjected to bending and torsion. Practical: I. Graphical methods for principal stresses problem)
3 3.0 Strain energy due to tension and compression. 04 16 3.1 Suddenly applied loads with or without impacts. 3.2 Applications like design of relay springs. Practical: 1. Izod impact test
4 4.0 Simply supported, cantilever and overhanging. 10 32 4.1 Shear force and bending moments in beams Shear force (S.F.) and Bending Moment (B .M.) diagrams for concentrated and uniformly distributed loads. 4.2 Stresses in beams, Moment of resistance of beam sections, 4.3 Applications to standard steel sections. Practical: I. Transverse test on small timber beams and cast iron. beams.
97
SECTION-II
5 5.0 Simple cases of slopes and deflections of cantilevers and simply 05 18 supported beams of uniform section under concentrated and uniformly distributed loads. Application of formula. only. Practical: 1. Deflection test
6 6.0 Welded joints, Elementary design of welded joints. 03 16 6.1 Types of welded joints. 6.2 Stress relieving. Permissible. Practical: 1. Welded joint.
7 7.0 Stresses in thin cylindrical shells. Stresses in spherical shells. 04 16 7. 1 Stresses in thick cylinder. 7.2 Stresses in plates.
8 8.0 Elementary theory of torsion. 06 16 8. 1 Moment of resistance. 8.2 Angle of twist. 8.3 Polar moment of inertia. 8.4 Strength and stiffness of shaft.. Applications like line shafts, coupling torsion sprint torsion dynamometers, shafts transmitting power, propeller shafts.
9 9.0 Closed coiled helical springs. Applications of spring,s used in 04 16 equipments like valves in internal combustion engine, safety valves of boilers, air compressor, and shock absorber. Practical: I. Spring test. Total 48 164
6. IMPLEMENTATION STRATEGY: 1. Teaching Plan 2. Lesson Plan 3. Combining theory with practical knowledge
7. REFERENCE BOOK:
Sr.No. Author Title Edition Year of
Publication
Publisher & Address
1 S. Ramamurtham Engineering Mechanics
2 Thunarkar Engineering Mechanics
98
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering SEMESTER : III
Duration : 16 Weeks
Subject: Engineering Drawing - III Code: ME- 37
Group: C* Compulsory
2.TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits Examination Scheme and Maximum marks
Paper Theory
Hrs/wk
Practical Hrs.
Per week
hrs Np Mks
TH Sessional T/W Pract
Oral
Total
02 06 08 04 01 100 80 20 50 50 200
3.RATIONALE:
Drawing is a graphical language of engineers. Diploma technician has to work in different situations like supervision of production, maintenance of machines, inspection, drafting etc. In whatever capacity he/she may working, diploma technician has to read, interpret and prepare drawing of various types of machine component dies, assemblies etc. He is required to understand, assimilate and analyze the drawings completely which eventually leads to efficient performance of manufacturing. So basic skills of reading and interpreting the drawing is atmost important and involves preparation of parts using. different symbols as regards to fit, tolerance, surface finish etc.
4.OBJECTIVES:
Engineering drawing — III includes study of solid geometry as sections of solids, development of surface of solids and intersection of surfaces of two solids. It also includes study of various assemblies (sub assemblies) ai detail drawings of machine parts of assembly, such as joints, bearing, jigs and fixtures, machine vice, screw jac tool post etc. It also includes weld symbol, tolerances, limits, fits, surface finish symbols etc and its application After learning this subject, the detail and assembly drawing of various machine parts with convention representation and various symbols like machining symbols, fits, tolerance etc. is understood for drawing and interpretation.
99
5.DETAILED CONTENTS:
SECTION-I
Chapter Contents Marks Hours
1. 1.0 Section of solids : 21 05 1.1 Auxiliary inclined and auxiliary vertical sections of prism, pyramid, cylinder and cone 1.2 Projection of True shape of the sections (Axis of solid/plane inclined to one reference plane) Practice: 1. A drawing sheet on four problems of sections of solids Home Assignment: A drawing sheet on four problems of section 10 of solids. 2. 2.0 Auxiliary Projection 21 04 2.1 Auxiliary projections of machine parts 2.2 Use of auxiliary projections for solid geometry Practice: 10 1. A drawing sheet on four problems of Auxiliary projections. Home Assignment- A drawing sheet on four problems of auxiliary - projections.
3. 3.0 Details and assembly of machine parts: 20 04 3.1 Screw jack, vices, tool post, simple tailstock, jigs and fixtures (with about 8 parts excluding standard parts like nuts, studs, bolts, pins, washers etc.) Practice: 1. A drawing sheet on two problems of assembly/ details - 12 drawing of machine parts. Home Assignment- A drawing sheet on two problems of assernbly/ details drawing of machine parts.
4. 4.0 Working Drawing 18 05 4.1 Weld symbols 4.2 Machining and surface finish symbols 4.3 Limits, fits and tolerances 4.4 Geometrical tolerances 4.5 Representation of the above symbols and tolerances on part drawing. Practice: 1. A drawing sheet on two problems of working drawing -- 12 of detail/ assembly.
100
SECTION-II
5. 5.0 Interpenetration of surfaces of solids: 23 04 5.1 Intersections of surfaces of the solids with axis perpendicular or parallel to reference planes. 5.2 Intersection of two prisms 5.3 Intersection of two cylinders 5.4 Intersection of prism and cylinder 5.5 Intersection of pyramid and prism 5.6 Intersection of cone and cylinder Practice: 1. A drawing sheet on four problems of Intersection of - 12 surfaces of solids. Home Assignment: A drawing sheet on four problems of Intersection - of surfaces of solids.
6. 6.0 Development of lateral surfaces of solids: 22 04 6.1 Development of lateral surfaces of prisms, pyramids, cone and cylinder 6.2 Antidevelopment Practice: 1. A drawing sheet on eight problems of development and - - 10 sections of solids.
Home Assignments: A drawing sheet on six problems of development and sections of solids.
7. 7.0 Joints: 18 03 7. 1 Cotter, cotter Joints and knuckle joints 7.2 Assembly and details of Joints Practice: A drawing sheet on assembly/details of joints -- 08
8. 8.0 Frictional (Bush) bearing: 17 03 8.1 Solid bearing 8.2 Bush bearing 8.3 Plummer block 8.4 Pivot (Foot Step) bearing 8.5 Assembly and details of bearings. Practice: - -- 10 1. A drawing sheet on assembly/details of bearings Project- Chart and model making on above topics by individual 12 or group.
IMPLEMENTATION STRATEGY (PLANNING) In depth study and understanding of the subject will be implemented by following strategy (Teaching Plan). Example
101
1. Lesson plan 2. Use of charts, models, transparencies 3. Use of a devices
7. REFERENCE BOOKS:
Sr No Author Title Edition Year of
Publication Publishers & Address
1.
N.D.Bhatt and Panchal
Geometrical and Machine drawing
14 th 2000 Rupalee Pub.Opp. Amul Dairy, Court Rd, Anand-388 001
2. R.K. Dhawan.
Engineering drawing 2nd 2001 S.Chand & Co. Ltd, Ram Nagar New Delhi-I 10055
3.
R.K. Dhawan
Machine drawing 2nd 2001
S.Chand & Co. Ltd., Ram Nagar New Delhi-IlO 055
4. M.L. Dabhade .
Engineering Graphics ,
4th 1995
Mrs. VA.Velhankar 1030, Model Colony, B-l2,Akash Ganga, Pune-41l016
102
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
(1) SUBJECT DETAILS
Course : Plastics Engineering Semester: III Duration : 16 Weeks
Subject : Basic Electrical and Electronics (EE-32)
Group: Core C* Compulsory
(2) TEACHING AND EXAMINATION SCHEMES
Teaching Scheme Credits Examination Scheme and Maximum marks
Paper Theory
Hrs/wk
Practical Hrs.
Per week
hrs Np Mks
TH Sessional T/W Pract
Oral
Total
4 2 6 3 01 100 80 20 50 25 175
(3) RATIONAL:- To enable the students to learn about the facts, concepts, principles, procedure and control of electric / electronics devices and their applications in industry.
(4) OBJECTIVES:
Students will be able to: (i) Understand the concept and principle of A.C. fundamentals, which can be applied to rectify electrical faults and acquire supervisory role. (ii) Select the drive for a given application (iii) Understand the working of electronic devices, circuits and their industrial applications, (iv) Understand the fundamentals of microprocessors & microcontrollers and their applications.
103
(5) DETAILED CONTENTS
SECTION I
Chapter Name of the Topic — Hours Marks
1
Basic concept & principle of electrical engineering. 1.1 Electricity Fundamentals, Ohm’s Law, Resistance in series & parallel 1.2 Kirchhoff’s law, Faraday’s Law of electromagnetic induction. 1.3 AC. fundamental Concept of I &3 AC supply, P.F. Active & reactive power.
(06) (14) .
2
DC MOTORS 2.1 D.C. motor working principle 2.2 Types of D.C. motors 2.3 Characteristics & applications
(06) (12)
3
TRANSFORMER 3.1 Working principles 3.2 Constriction 3.3 Core type & shell type transformers 3.4 EMF Equation. 3.5 Turn ratio, current ratio & voltage ratio. 3.6 Concept of auto transformer & 30 transformers.
(04) (12)
4
A.C.MOTORS 4.1 Classification 4.2(3)induction motor principle construction, types and pp1ications,shaded pole & capacitor start motors 4.3 (1) induction motor
(06) (12)
5
ELECTRICAL Drives 5.1 Advantages of Electrical drives 5.2 Classification 5.3 Selection of drive 5.4 Drives: Couplings, Rope & chain Drives, Gear Diryes
(02) (04)
6 ELECTRICAL HEATING
104
1.1 Principal of electrical heating 1.2 Resistance heating, induction heating & di-electric heating principles.
(03)
(12)
7
AWARENESS ABOUT ELECTRIC POWER GENERATION 7.1 Hydroelectric, Thermal, Atomic, Solar & wind. 7.2 Layout diagram oft3eneratioia & distribution.
(05) (16)
TOTAL
32 82
CHAPTER NAME OF THE TOPIC HOURS MARKS
8
INTRODUCTION TO ELECTRONIC DEVICES 8.1 Conductors, Semi conductors and Insulator 8.2 Electronic components : Resistors, Capacitors & Inductors 8.3 Semiconductors: intrinsic & extrinsic. 8.4 Diode: P N Junction diode, symbol, working & characteristics. 8.5 Zener Diode: Symbol, working characteristics transistor Bipolar Junction Transistor (BJT), Field Effect transistor (PET), I Injunction Transistor UJT), Symbol, working & characteristics. 8.6 Power devices Silicon controlled rectifier (SCR), DIAC & TRIAC, symbol, working & characteristics. 8.7 Photo devices: Photo diode, photo transistor, symbol & working, Segment display. PRACTICALS (i) Identification of different active components used in electronics laboratory. (ii) To plot the V-I characteristics of P-N Junction diode and zener diode and interpret the results. (iii) To plot the V-I characteristics of UJT & interpret the result. (iv) Determine the V-I characteristics of SCR & interpret the result.
(12)
(22)
105
9
RECTIFIERS & FILTER CIRCUITS 9.1 Rectifier: Half wave, Full wave &. Birdge type (Single & three phase) 9.2 Filters PRACTICALS (i) Study of half wave & full wave and bridge rectifier. (ii) Study of zener voltage regulator
(02)
(12)
10
AMPLIFIERS & OSCILLATORS 10.1 Single stage transistor amplifier in CE configuration, frequency response. 10.2 Two stage transistor amplifier, RC coupled. 10.3 Introduction of power amplifiers, classifications, single ended class A amplifier 10.4 Oscillators: Concept & working PRACTICALS (i) To plot frequency response of single stage RC coupled amplifier & find out cut off frequency
(06)
(16)
11
POWER CONTROL CIRCUITS 11.1 Transducers: temperature, Pressure and Displacement 11.2 Electronic timers 11.3 Speed control circuit PRACTICALS (i) Study of electronic timer (ii) Speed control of AC/DC motors
(06)
(16)
106
12
DIGITAL ELECTRONICS 12.1 Study of logic gates (AND.OR,NOT,NOR,NAND) symbol & truth table 12.2 Study of flip-flop: 3-K flipflop 12.3 Study of working principal of the Following with the help of block diagrams: Encoder, Decoder, Multiplexer,Demultiplexer & counter. 12.4 Introduction & applications of microporcessors & microcontrollers in Mechanical / Plastics / Chemical Industry. PRACTICALS I Verification of truth table of logic gates AND,NOT,OR 2 Study of multiplexer. 3 Study of counter.
06
16
TOTAL 32 82
(6) IMPLEMENTATION STRATEGY (PLANNING)
The syllabus is taught as per the lesson plan using charts and demonstration of machines, devices & circuits in the electrical & electronics laboratories.
(7) REFERENCE BOOKS
Sr. No.
Author
Title Edition Year of publishing
Publisher & Address -
1
B.LTHEREJA Electrical technology
3 rd 2002 S.Chand &. company
. 2
V.N.Mittal Basic elect.engg.
9th 1997
Tata Mcgraw hill
107
3 Samaijit Ghosh
Fundamental of electrical & electronics engg
lst 2003 Practise hail India
4
U.A.Bakshi& A.P.Godse
Basic. elect & electronics
1st 2001 Technical publication
5 Bhargava
engg Basic electronics & liner circuit
35th
2001 / 2002
Pune T.T.T.I. Chandigarh, TMH
6 Allen Mottershead
Electronic device& circuits
26th 2002 PHI
7 R.P.Jain Digital Electronics
8th 2003 Tata Mcgraw Hill
108
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS :
Course : Plastics Engineering Semester : III
Duration : 18 Weeks
Subject : Polymer Chemistry Code: SC - 35
Group : C* Compulsory
2. TEACHING AND EXAMINATION SCHEME :
Teaching Scheme Credits Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Practical Hrs. per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
03 02 05 03 01 100 80 20 50 50 200
3. RATIONALE:
The subject is introduced to impart the basic knowledge about the chemical bonds, chemical structure, functionality properties & uses of the raw materials (monomers ) required to manufacture polymers.
4. OBJECTIVES :
The students will learn
1. Properties, uses, structure & Preparations of monomers.
2. Chemical bonds & role of functionality.
109
3. Methods of polymerization
4. Polymer physical properties & additives.
5. DETAILED CONTENTS :
Chapter Content
Marks Hours
SECTION-I
1. 1.0 Mechanism of chemical bond, Allotropy of carbon,
1.2 Hybridization polarity of covalent bond, Quadrivalance of carbon atom,
1.3 Classification of plastics according to end use, Names of important plastics in each group and the raw material from where each plastic is obtained.
1.4 Definition of Stabilizer, Plasticizers, Extender, Lubricant, Filler, Colourant, Antioxidant, Blowing agent, Flame retardant, Viscosity depressant & Impact modifier.
08
10
08
10
02
03
03
02
2. 2.0 Physical testing of Plastics and its Significance—
2.1 Bulk factor, co-efficient of expansion, shrinkage,
2.2 Co-efficient of friction, elasticity, viscosity, conductivity,
specific heat, melt viscosity and molecular weight distribution. .
2.3 Use of melting point and softening. Point in polymer science, significance of degree of curve, moisture content and molecular weight.
04
06
06
01
02
02
3. 3.0 Chemical formula, preparations, properties and uses of organic compounds.
3.1 Methane, ethane, benzene, toluene, methyl alcohol, ethyl
10
03
110
alcohol,
3.2 Formaldehyde, acetaldehyde, benzaldehyde, acetone, ethyl ether,
3.3 Nitrobenzene, aniline, phenol, resorcinol, benzoic acid, acetic acid.
10
10
03
03
82 24
SECTION-II
4. 4.0 Raw materials, preparation, properties and uses for polymers and resins such as phenol, cresol, resorcinol, bisphenols, amino compounds like urea, melamine, aniline, paratoluene sulphonamine etc.
4.1 Poly functional acids and alcohols like pthalic anhydride, terthalic acid, adipic acid, sebacic acid, malic acid, fumaric acid,
4.2 Glycols, glycerine, pentaerythritol, hexamethylene diamine and polyamines,
4.3 Ethylene, acetylene, butadiene, propylene, styrene,
4.4 Acrylic esters and acrylonitrile, epichlorohydrine, vinyl chloride, vinyl acetate and other similar compounds.
10
15
10
05
05
03
03
03
03
02
5. 5.0 Functionality and its importance in polymer chemistry,
5.1 Molecular weight, distribution of molecular weights, polymer synthesis-
5.2 Mechanisms
5.3 Methods of polymerization and polymerization catalysts (Treatment of these topics could be in detail)
03
07
12
15
01
02
03
04
Total 82 24
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Practice:
Practical will be perform in the chemistry laboratory as per academic schedule. Where the students will perform following experiments individually.
1) Determination of percentage purity of raw materials such as Phenol Formaldehyde
2) Determination of Moisture Content
3) Identification of 12 simple organic compounds containing C,H,O,N,S & Helogens with melting point
& boiling point.
4) To determine the acid value of Resins.
5) To determine the hydroxyl value of Resins.
6) To determine Saponifacation value of Resins.
7) To determine Iodine value of Resins.
6. IMPLEMENTATION STRATEGY (PLANNING) :
1. The subject shall be taught using proper sketches and models of various chemical compounds. Underlying principles, laws shall be explained. Industrial applications of this subject with respect to various sources, preparation methods, physical and chemical properties and applications of these chemical compounds shall be explained to the students.
2. Lesson Plan
3.Teaching Plan:
7. REFERENCE BOOKS :
Sr.No
Author Title Edition Year of Publication
Publishers & Address
1. Bhal & Bhal Organic Chemistry 14th 1995 S. C. Chand & Co., New Delhi
2. Gowarikar Polymer Science 18th 2001 New Age International Delhi
3. F.W. Billmeyer
Text book of polymer science
4th 2000 John wiley & sons, New York
112
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1 : SUBJECT DETAILS
(June-Nov,2009)
Course : Plastics Engineering Semester : III
Duration : 16 Weeks
Subject : Introduction to Manufacturing Processes CODE:PE - 31
& Auxillary Equipments
Group : C* Compulsory
2: TEACHING & EXAMINATION SCHEME:
Teaching Scheme Credits Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs.
per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
03 -- 02 05 03 01 100 80 20 50 50 200
3: RATIONALE:
This is a basic & important subject for Plastics engineering. The subject provides basic principles of thermoplastics & thermoset materials, moulding processes and imparts knowledge about the moulding machines and supporting equipments and service lines. It also highlights the important polymer concepts.
113
4: OBJECTIVES
After studying this subject student will be able to understand the following:
1. Important Polymer concepts. 2. Principles of thermoplastic material processing. 3. Principles of thermoset material processing. 4. Knowledge of all processing machines. 5. Knowledge of construction & different parts of processing machines. 6. Plastic moulding processes used in plastic industries. 7. Details of various supporting auxiliary equipments & service lines.
5: DETAILED CONTENTS:
SECTION I Marks Hours
Chapter 1: Important Polymer Concepts
1.1 General Definitions Monomer, Polymer, Plastics, 05 01
Polymerization, Co-polymerization Degree of Polymerization,
1.2 Types of Polymers, Classifications of Polymers Rheological 12 04
Properties & Relation of Polymers chemical
structure with Plastics Processing,
1.3 Effect of Molecular weight, Pendent group, K-value,Covalent 08 03
bonding, drying, on Polymer rocessing, Nano technology in Plastics
Chapter 2: Principles of Processing Of Plastics
2.1 Deformation Plastics Melt – either thermoplastic or thermoset, 17 06
Processes – Extrusion, Injection Moulding, Calendaring, Forming,
Roto moulding, Blow Moulding, Compression & Transfer Moulding
2.2 Deformation of polymers in rubbery state of importance in 05 01
vacuum forming , Pessure forming,warm forging techniques.
2.3 Deformation of a solution usually either by spreading or by
114
extrusion used for cast film, fibers & filaments. 05 01
2.4 Deformation of a suspension used for rubber latex, PVC paste. 05 01 2.5 Deformation of a low molecular weight polymers or polymer 05 01 precursor eg casting of acrylic sheets & preparation of GRL. Mechanical
operations.
Chapter 3: Factors which affect the Polymer Processing 15 05
3.1 Hygroscopic behavior of the polymer compound, granule characteristics thermal properties that influences and affects
the melting & cooling of the polymers, thermal stability, flow
properties, crystallization, orientation.
3.2 Effect of additives and compounding. (Formulation) 05 01
Total 82 24
SECTION II Marks Hours
Chapter 4: Introduction of Plastics Processing Machines.
4.1 Injection Moulding Machine (Ram & Screw type),Blow moulding machine 12 04 4.2 Extruder , Thermo forming machine 12 04 4.3 Roto moulding machine, calendaring 12 04
Chapter 5: Auxiliary Equipments & Service Lines – Significance
& Usage
5.1 Hopper Drier, Dehumidifier, Hopper loader, Automatic material 10 04 conveying system.
5.2 Compounding & Blending devices - High speed mixer, two roll mill, 18 04 Ban bury mixer (Intensive mixer), Equipments for mixing drum mixer,
sigma/ribbon blender, planetary mixer, kneader mixer.
5.3 Other equipments – Mould temp controller, pulverizing machine, 10 02 granulator
5.4 Cooling & Chilling plant lines. 08 02
115
Total 82 24
Practices:
Practical will be perform in the Plastics workshop as per academic schedule. Where the students will perform following experiments individually.
1 Demonstration) of Hand injection moulding machine.
2) Demonstration of mechanical compression press.
3) Demonstration of hydraulic press.
4) Demonstration of Ram injection moulding machine
5) Demonstration of high speed mixture
6) Demonstration of grinder.
7) Demonstration of screw injection moulding machine
8) Demonstration) of Blow moulding machine.s
6.IMPLEMENTATION STRATEGY (PLANNING) :
1. Wherever practical in institute is not possible visits are carried out to necessary industries. 2. Lesson Plan 3. Teaching Plan
7: REFERENCE BOOKS:
Sr
No
Author Title Edition Year Of Publication
Publishers & Address
1 Rosatto Extrusion Techniques 2nd 1998 Hanser New York
2 A. Whelen Injection Moulding Machnes
1st 1984 Elseviep Applied Science Publications
3 Ralph E. Wright
Injection/Transfer Moulding of Thermosetting Plastics
1st 1995 Hansep Publishers NewYork
116
4 Gowarkiar Polymer Science 18th 2001 New Age International Delhi
5 Rosatto Injection Blow Moulding
1st 1997 C.B.S Publisher, Delhi
117
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS
Course: Plastics Engineering Semester: III
Duration : 16 weeks
Subject : Material Science & Metallurgy Code: ME-07
Group : C * Compulsory
Teaching Scheme Credits Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs.
per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
02 -- 02 04 03 01 100 80 20 25 25 150
3. RATIONALE: The Subject will help the students to understand common metallic materials used in industries as regards the familiarity of metal treatments.
4. OBJECTIVES: 1. To provide basic knowledge of properties and applications of important metals, allays and non metallic materials and selection criteria for desired application 2. To provide knowledge of heat treatment given to steel. 3. To Provide knowledge of metallography
118
5. DETAILED CONTENS:
SECTION I
Chapter CONTENT Marks Hours
1
Introduction to Material science and metallurgy 1.1 Definition and importance of metallurgy 1.2 Definition of materials science and their importance. 1.3 Classification of engineering materials. Comparison of metallic and non metallic materials
18 3
2
Properties of Materials 2.1 Definition of Property 2.2 Classification of Properties (Spectrum) 2.3 Mechanical Properties - hardness, brittleness, elasticity, resilience, plasticity, yield strength, tensile strength, Proof sets, ductility, malleability, impact strength, creep, fatigue, wear resistance 2.4 Factors affecting. mechanical properties
28 8
Chapter CONTENT Marks Hours
2.5 Factors considered in selection of materials. Some examples for selecting materials eg. Spring, Gear, Screw Driver etc.
3 Technological Properties of metals and alloys cost ability, Mach inability, Weld ability, forgability formability
18 2
4
Metallography 4.1 Definition, macrostructure, microstructure-Exam. 4.2 Preparation of specimen for microscopic examination. 4.3 Metallurgical microscope and modern techniques
18 3
SECTION II
Metals and alloys (Types, Composition, Properties and uses.
5.1Cast Irons 5.2 Steels Plain Carbon Steels Effect of alloying elements on properties of Steels. Stainless Steel, tools Steels, Die Steels, Spring Still
20
4
119
5.3 Non Ferrous Metals and alloys Cu, Zn, Sn, Pb, AT, brass, Bronze, Gunmetal, Bearing Metal, Duralumin
6
Non Metallic Materials 6.1 Ceramics 6.2 Refractoriness 6.3 Insulating Materials 6.4 Plastic Rubbers 6.5 Composites 6.6 Cryogenic Materials 6.7 Super Alloys
20 4
7
Phase Diagrams 7.1 Solidification Cooling Curves 7.2 Alloys Definition, Classification 7.3 Phase Rule, Lever Rule 7.4 Allotropy 7.5 Iron - Carbon Equllibriurn System 7.6 Micro Constituents in Iron and Steel
20
4
8
Heat treatment of Steel 8.1 Introduction - Definition, Purpose, Principles. 8.2 Types - Annealing, Normalizing, Hardening, Tempering 8.3 Case I Surface hardening methods Carbursing, Cyaniding, nit riding flame hardening. 8.4 Heat treatment defects
22 4
6. IMPLEMENTATION STRTERGY (PLANNING) Term Work 1. Preparation of specimen for micro examination 2. Microstructures and properties of cast irons and steel. 3. Study of iron - iron carbide eqm. Diagram 4. Heat treatment processes 5. Demonstration and visit to heat treatment shop.
No. Author Title Edition Year of Publication
Publishers & Address
1 Dr. O. P. Khanna Material Science Metallurgy
12th 2003 Dhanpat Rai & Sons New Delhi
2. Dr. V. D. Kodire Material Science & Metallurgy
10th 2003 Everest Publication
120
3. S. K. Hazza Choudhary
Material Science & Process
10th 2003 Media Promoter & Public Pvt. Ltd. Mumbai
3. Lakhtin Engineering Physical Metallurgy
4th 1975 Peace Publication Mascow
4. A.S.M. Vol. I Properties & Selection Iron & Steel
10th 1998 American Society for Metels
5. A.S.M. Vol. V Heat Treatment 10th 1998 American Society for Metels
121
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE: PLASTICS ENGG. FULL TIME w.e.f. batch admitted June, 2008 (Progressively)
SEMESTER: FOURTH TEACHING & EXAMINATION SCHEMES Effective from the Academic Term
July/November,2008
Sr
No
Subject Subject Code
Scheme of Instructions and Periods per week
No.of papers,
duration and marks
Scheme of Examination Gr Scheme L/P/Cr
L P D T Cr NP Hrs Mks SSL Paper T/W PR OR Total
1 #Technology of Plastics PE-45 3 2 - - 5 1 3 100 20 80 50 50 - 200 C* 325
2 Processing of Plastics-I PE-46 3 2 - - 5 1 3 100 20 80 50 - 25 175 A* 325
3 Plastics Plants Equipment-I PE-47 2 2 - - 4 1 3 100 20 80 50 - - 150 A* 224
4 Manufacturing Processes ME-39 2 5 - - 7 1 3 100 20 80 50 - 50 200 C* 257
5 Design of Moulds-I PE-48 2 - 3 - 5 1 4 100 20 80 50 - 50 200 A* 235
6 Basics of Hydraulic & Pneumatics
ME-52 2 2 - - 4 1 3 100 20 80 50 - 50 200 C* 224
7 Elastomer Technology PE-68 2 2 - - 4 1 3 100 20 80 50 - - 150 A 224
8 Advanced Mathematics MA-45 4 0 - - 4 1 3 100 20 80 - - - 100 A 404
TOTAL 20 15 3 - 38 08 PAPERS 160
640 350
50 175
1375
TOTAL PERIODS = 38 TOTAL MARKS = 1375
* Compulsory
L- Lecture Period SSL- Sessional P- Practical Period T/W- Term Work
(1) Unless stated, T.W. will be assessed by the Internal examiner D- Drawing Practice Period Pract- Practical based on considering the continuous assessment NP- No.of Papers Cr- Credit
by the concerned internal faculty Mks - Marks
(2) Unless stated, Practical, Practical/Oral (P/O), oral will be
jointly by the internal and external examiners.
122
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering Semester : IV
Duration : 16 Weeks
Subject : Technology of Plastics (#) Code: PE -45
Group : C* Compulsory
2. TEACHING AND EXAMINATION SCHEME
Teaching Scheme Credits Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Practical Hrs. per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
03 02 05 03 01 100 80 20 50 50 200
3.RATIONALE: 1. To introduce different tests for identification of plastics and study their properties and application. 2. To prepare thermoplastics and thermo sets. 3. To understand compounding of plastics. 4. To understand manufacturing process and physical, chemical properties and Applications of various plastics.
4. OBJECTIVES: The student will be able to 1. Identify thermoplastic and thermo set material. 2. Identify opaque and transparent material. 3. Prepare thermoplastic and thermosets 4. Calculate bulk factor, moisture control, molecular weight, water absorption. 5. The students will learn the properties and uses of various plastics.
123
5.DETAILED CONTENTS:
Chapter Content Marks Hours SECTION-I
1. 1.0 General definitions, laboratory preparations and commercial 24 07 manufacture (introductory level) and structure, properties and applications of the following plastic materials: Commodity plastics : HDPE, HMHDPE, LDPE, LLDPE, PP, PS and PVC Practice: (i) Identification of Polymers (ii) Preparation of Plastics 2. 2.0 Engineering plastics: 56 17 SAN, ABS, PA, POM, PMMA, UHMHDPE, tiouro plastics, PET, PBT, PF, UF, ME, EPOXY, POLYESTER and polyurethane Practice: (i) Identification of Plastics (ii) Preparation of Plastics
SECTION-II 3. 3.0 Specially plastics: 38 12
Silicones, PPO, polysuphoes, EVA,EAA, EVAL, PVDC, PVDF, PEEK,
cellulosic’s and polyamides
Practice: (i) Identification of Plastics (ii) Determination of Softening Range and melting point of Polymers 4 4.0 Classification and general principles of various additives. 12 03 Compositions and properties of in-organic and organic fillers, plasticizers, stabilizers, colorants, antioxidants, blowing agents, flame retardant, Si antistatic agents, slip and antiblock additives, lubricants, heat and light stabilizer, flow modifiers, and U-V absorbers Practice: (i) Identification of Plastics (ii) Compounding technique of plastics (iii) Determination of molecular weight b.y viscosity
5. Various aspects to be covered are forms available, proportion in which 06 02 these filters are incorporated, methods of mixing and resulting property improvements. .
124
Practice: (i) Identification of Plastics (ii) Compounding technique of plastics (iii) Determination of molecular weight by viscosity - 6. 6.0 Polymer blendes: 18 05 PP-EPDM, ABS-PC, PBT-PC and PA-EPDM Practice: (i) Identification of Plastics. (ii) Awareness of various blends 7. 7.0 Filled plastics: 06 02 Fillers like glass fibers, talk, calcium carbonate, mica carbon fiber, red mud, wood flour, cotton flock, graphite and cellulose pulp Practice: (i) Compounding of plastics (ii) Determination of bulk factor The (iii) Determination of moisture content (iv) Simple test for cure of plastics articles and laminates
6. IMPLEMENTATION STRATEGY (PLANNING): The student will be able to identify various plastics by simple tests. The Term Work will be based on scale in identifying different plastics, compounding technique and preparing different type of plastics.
7. REFERENCE BOOKS:
Sr. No. Author Title Edition Year of
Publication Publishers & Address
1 J.A. Brydson Plastic Materials 17th 1999 Butterworth, London
2. Gowarikar Polymer Science 18th 2001 New Age International, New Delhi
3. Encyclopedia Plastic Materials - - -
4. A,S. Athalye
Plastic Materials Handbook Volume - I
3 1995 Multitech Publishing Co. Ghatk.
5. Ernest W. Flick
Plastic Additives An Industrial Guide
1 1986 May 05 Publications, New Jersey
6. A. S. Athalye Identification & testing of Plastics
1t 1992 Multitech Publishing Co.
7. F. W. Billmeyer
Textbook of Polymer Science
3rd 1984 Johnwiley & Sons, New York
8. Micacl L. Berins
Plastics Engineering Handbook (SPI)
5th 1991 Champman & Hall London, New York
125
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1.SUBJECT DETAILS :
Course:Plastics Engineering Semester: IV
Duration : 16 Weeks
Subject: Processing of Plastics –I Code: PE 46
Group : A* Compulsory
2. TEACHING AND EXAMINATION SCHEME
Teaching Scheme Credits Examination Scheme and Maximum Marks
Paper Theory Hrs. Per Weeks
Practical Hrs. Per Weeks
Hrs Np Mks
TH
Sessional
T/ W
Pract Oral
Total
03
02
05
03
01
100
80
20
50
25
175
3. RATIONALE: 1. To study and to manufacture different articles by different processes. 2. To study significance of various parameters affecting different processes. 3. To study the advantages and disadvantages of various processes.
4.OBJECTIVES: The student will manufacture articles by study of: 1. Compression molding and transfer molding processes and parameters affecting them. 2. Manufacturing articles by injection molding. 3. Study of rotational molding process. 4. Prepare a laminate by hand laminate technique. 5. Study manufacture of different foams using different materials.
126
5. DETAILED CONTENTS:
SECTION - I
Chapter Content Marks Hrs 1. 1.0 Compression molding: 30 06 1.1 Basic process and molding cycle 1.2 Various grades of molding compound I .3 Effect if bulk factor, flow properties, curing time, temperature and pressure on molding cycle Effects of pre-heating and pre-forming Limitations of compression molding Trouble shooting : defects, causes and remedies Practice: (i) Visit to compression molding industry (ii) Visit to laminates manufacturing industry (by compression molding) 2. 2.0 Transfer molding: 15 04 2.1 Basic process and molding cycle 2.2 Merits and demerits of process 2.3 Types & integral pot and auxiliary ram process 2.4 Transfer temperature and molding temperature 2.5 Transfer pressure and molding pressure
2.6 Effect of temperature, pressure and curing time 2.7 Trouble shooting & defects, causes and remedies Practice: (i) Visit to transfer molding industry 3. 3.0 Rotational molding: 15 03 3. I Basic process and materials 3.2 Effect of speed and temperature on article wall thickness 3.3 Advantages and disadvantages of process 3.4 Troubleshooting & defects, causes and remedies Practice: (i) Visit to rotational molding industry 4. 4.0 Foaming process: 20 06 4.1 Basic process and materials 4.2 Foaming agents 4.3 Structural foam molding 4.4 Expandable styrene foams 4.5 Polyurethane foams Practice: (i) Visit to foam manufacturing industry
SECTION -II
5. 5.0 Injection molding: 40 15 5.1 Basic process and molding cycle 5.2 Merits and demerits of process
127
5.3 Molding materials 5.4 Various process parameters like temperature, pressure, injection rate, hold on time etc. and their influence on the product quality 5.5 Injection molding of thermo sets 5.6 Reaction injection molding 5.7 Troubleshooting & defects, causes and remedies Practice: (i) Study of injection molding process 6. 6.0 Laminates: 15 06 6.1 Basic process and materials 6.2 Types & high pressure and low pressure process 6.3 Production of industrial and decorative laminates 6.4 Applications of laminates Practice: (i) Visit to laminate manufacturing industry 7. 7.0 FRP techniques: 15 06 7.1 Resins and reinforcing materials 7.2 Moulding process & hand lay up and spray lay up process 7.3 Filament winding 7.4 Sheet moulding compound and bulk moulding compound 7.5 Application 7.6 Trouble shooting Practice: (i) Visit to FRP manufacturing industry 8. 8.0 Casting: 05 02 8. 1 Basic process and types 8.2 Solvent casting 8.3 Effect of various ingredients Practice: (i) Visit to casting of plastic industry
9. 9.0 Slush moulding: 05 02 9.1 Basic ideas about the process 9.2 Materials and applications Practice: (i) Visit to slush moulding industry
6. IMPLEMENTATION STRATEGY (PLANNING): 1.The student will learn about different processes used in plastics for manufacturing different products. Term Work will be based on practicals. 2. Lesson Plan 3.Teaching Plan
128
7) REFERENCE BOOKS :
Sr. No.
Title Author Edition Year of Publication
Publishers & Address
1. Compression and Transfer
Moulding Bikales 2 1986
2.
Injection Moulding
Rubbin 3rd . 1992
John wiley & sons, London
3. Injection Moulding M.V. Joshi 5t h 1994 Macmillian India
4. SPI Handbook
2nd
1980 Vanoscarand Publication
5. Plastic Processing Frados 4th 1990
129
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering Semester : IV
Duration : 16 weeks
Subject : Plastics Plant Equipment I Code : PE-47
Group : A* Compulsory
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits Examination Scheme and Maximum Marks
Theory Hrs. Per Weeks
Practical Hrs. Per Weeks
Paper TH Sessional T/ W
Pract. Oral
Total
Hrs Np Mks
02 02 04 03 01 100 80 20 50 - 150
3. RATIONALE: To produce articles made from various plastic raw materials along with different machines, some auxiliary equipments are essential, these equipments differ from material to material. Precise control over temperature and pressure measuring equipments and simulative faults and fault detection in compression, transfer, roto molding, and injection molding machines are also required, students are exposed to theses aspects.
4. OBJECTIVES: 1. To study various mechanical instrumentation and control for injection molding, compression, transfer, rotational machines. 2. To understand the equipments and their functions of above machines.
130
5. DETAILED CONTENTS:
Chapter Content Marks Hours SECTION - I 1. 1.0 Instrumentation : 12 02 1 1 Elementary ideas about mechanical instrumentation and control 1.2 Basic ideas about detector/transducer, modifying / amplifying and indicating/recording/registering devices 1.3 Mechanical details about instrument used for measurement of pressure, flow, level and temperature - Practice: (i) Study of basic mechanical instruments (ii) Study of pressure and flow measuring devices 2. 2.0 Equipments for compression and transfer molding: 36 06 2. I Various types of presses & applications and selection 2.2 Press specification 2.3 Study of drive, actuation and clamping 2.4 Heating and cooling systems 2.5 Automatic plants & automatic feeding and stripping systems 2.6 Hydraulic circuits for ram speed control 2.7 Pre-heater and drying machines 2.8 Equipments for pre-forming 2.9 Equipments for mixing and compounding 2.10 Screw transfer machines 2.11 Study of feed systems, screw and plasticizing systems 2.12 Plant safety & general safety aspects, interlocked safety devices, mould safety devices Practice: (i) Study of mechanical press (ii) Study of hydraulic press (iii) Study of transfer molding equipments 3. 3.0 Equipments for rotational molding: 16 04 3.1 Batch type machines 3.2 Continuous type machines 3.3 Study of biaxial drive 3.4 Heating and cooling systems Practice: (i) Study of rotational molding machine (ii) Visit to roto molding industry 4. 4.0 Equipments for casting: 16 04 4.1 Cell cast machines 4.2 Pressure gelation machines 4.3 Automatic dispenser 4.4 Centrifugal casting machine Practice: (i) Study of various casting equipments (ii) Visit to Casting industry
131
SECTION -II
5. 5.0 Equipments for injection molding : 80 16 5.1 Types of machines & plunger and screw types, single stage and two stage machines, inline and pre-plasticizing machines 5.2 Injection unit & constructional and design features of hopper, barrel, non-return valves, screws and nozzles 5.3 Clamping unit & characteristics required by a clamping device hydraulic (direct) and toggle (indirect) locking system & their characteristics, design & comparison 5.4 Injection molding machine specifications & general, clamping side and injection side specifications, estimation of shot capacity, plasticizing capacity and clamping capacity 5.5 Hydraulic control circuits for injection and clamping 5.6 Injection molding machines for thermo sets & major differences in design of screw, barrel and nozzle, temperature control 5.7 Equipments for reaction injection molding 5.8 Safety aspects of injection molding equipments Practice: (i) Study of pneumatic or hydraulic circuits pertaining to processing equipments (ii) Study of Injection Molding machine (iii) Visits to plastics machine manufacturing industry (iv) To find out simulated faults and fault detection
6. IMPLEMENTATION STRATEGY (PLANNING):
1. Students will be made conversant with the compression transfer molding equipments. They will understand the basic assembly and various parts of injection molding machine. They will be able to find out various stimulated faults and fault detection. 2. Lesson Plan 3. Teaching Plan
132
7. REFERENCE BOOKS:
Sr. No. Author Title Edition Year of
Publication Publishers & Address
1. A. Whelan Injection Molding Machines 1st 1984 Elseviep Applied Science Publications
2. Bullers A guide to Injection Molding Of Plastics
I st 2000 Allied Publications Limited.
3. Ralph E Wright
InjectionlTransfer Moulding of Thermasetting Plastics (SPE)
1st . 1995 Hansep Publishers, New York.
4. Joseph Fred Chabot
The development of Plastics Processing Machinery and Methods — SPE
1st 1992 John Wiley and Sons, New York. -
5. Irvin I. Rubin Injection Moulding Theory and Practice — SPE
1st 1972 John Wiley and Sons, New York.
6. R. J. Crawford
Rotational Moulding of Plastics 2nd 1996 John Wiley and Sons, New York.
133
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1) SUBJECT DETAILS
Course : Plastics Engineering SEMESTER: IV Duration 16 Weeks
Subject : Manufacturing Process Code: ME-39
Group: C* Compulsory
2) TEACHING AND EXAMINATION SCHEME :
Teaching Scheme Credits Examination Scheme and Maximum Marks
Theory Hrs. Per Weeks
Practical Hrs. Per Weeks
Paper TH Sessional T/ W
Pract. Oral
Total
Hrs Np Mks
02 05 07 03 01 100 80 20 50 50 200
3. RATIONALE:
A product industry comprises of machines. Number of processes being carried out on different machines. They have different principles of working. To go to an industry it is essential to know how these machines work and help in producing different products.
4. OBJECTIVES:
1. The students will be able to understand how a machine works and what operations can be carried
134
out on it. 2. They will be able to handle the machine and work on it efficiently.
5. DETAILED CONTENTS:
Chapter Contents Marks Hours SECTION - I
1. 1.0 Lathe Machine: 24 08 1. 1 Introduction and working principle 1.2 Classification specification and alignment test 1 .3 Study of various operations done on lathe with use various accessories, methods of taper turning, screw cutting, lathe tool geometry, tool materials, speed & feeds & factor affecting them. Practice: 1. One job of eccentric turning 2. One job of external V and square threading, taper turning knurling, shoulder cutting, chamfering and centering 2 2.0 Capstan and turret lathe: 18 04 2.1 Classification specification working comparison with other lathe. 2.2 Work holding, tool holding devices 3 3.0 Shaper & Planer: 20 04 3.1 Constructional details, specifications & alignment tests, operation performed on it. 3.2 Different methods of work holding
4 4.0 Slotting Machines: 18 02 4.1 Constructional details specifications & alignments 4.2 Operations performed on slotting machines 4.3 Work holding devices
SECTION -II 5 5.0 Milling Machine: 30 07 - 5.1 Introduction and classification of milling, machines 5.2 Constructional details 5.3 Milling methods & different milling operations 5.4 Study of different types of cutters, elements of milling cutter 5.5 Use of dividing head 5.6 Different methods of indexing 6 6.0 Drilling and boring machines: . 30 06 6. 1 Classification and construction of various operations performed on them 6.2 Twist drill nomenclature, its material and methods of holding it on machine 7 7.0 Broaching and sawing Machines : 20 03
135
7.1 Introduction, type of broaching and sawing rnlcs 7.2 Constructional details of broach 7.3 Advantages and limitations of broaching Th 7.4 Specification and selection of saw blades
6. IMPLEMENTATION STRATEGY (PLANNING):
1. Lecture and practical jobs 2. Charts and handouts 3. Slide showing for milling Ch 4. Showing of different types of broaches
7. REFERENCE BOOKS:
Sr No Author Title Edition Year of
Publication Publishers & Address
1. S.K.Hajara Choudhary A.K.Hajra Choudhary
Workshop Technology Vol.-II
9th 1997 Media promoters and publishers Ltd New Delhi
2. B.S.Raghuvanshi Workshop Technology Vol.-II
9th 1997 Dhanpat Rai & Sons Co. New Delhi
3. W.A.J. Chapman, S.J. Martin
Workshop Technology VoI.-T, 11, III
4th 1998
Edward Arnoid Publishers Ltd., 338, Euston Road, London, U.K.
136
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1.SUBJECT DETAILS:
Course: Plastics Engineering Semester: IV Duration: 16 Weeks
Subject : Design of Moulds I Code : PE -48
Group : A* Compulsory
2.TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits Examination Scheme and Maximum Marks
Theory Hrs. Per Weeks
Practical Hrs. Per Weeks
Paper TH Sessional T/ W
Pract. Oral
Total
Hrs Np Mks
02 03 05 04 01 100 80 20 50 50 200
3.RATIONALE: The product produced by using plastic raw material requires special type of tooling for thermoset material. For thermostatic material compression and transfer moulding processes are preferred. Ejection of the product from the tool requires special mechanism to produce quality product.
4. OBJECTIVES: The student will be able to: 1. Know different types of compression moulds used commonly. 2. Understand different techniques to produce complex articles. 3. Understand various heating systems employed on the mould. 4. Understand different types of ejection systems. 5. Understand different types of feeding systems employed on transfer mould.
137
5. DETAILED CONTENTS:
Chapter Content Marks Hours
SECTION - I
1. 1.0 Compression moulds: 56 22 1.1 Design of positive, semi positive and flash moulds, hand moulds and automatic moulds, single and multi-cavity moulds, three plate moulds 1 .2 Flash allowance, shrinkage allowance and draft allowance 1.3 Standard components of compression mould & typical designs 1.4 Cores and inserts 1 .5 Calculations for depth of cavity and number of cavities required 1.6 Ejector systems & selection and location 1.7 Moulds for articles with undercuts & -split moulds and actuation techniques, moulds with side cores, external and internal threading, lettering etc. 1 .8 Considerations in deciding upon the parting line Practice: I. Compression moulds for simple articles consisting of assembly and detail drawings. (Two sheets)
2. Multi-cavity moulds
3. Mould with side cores. — 4. Moulds for articles incorporating inserts. 5. Split moulds. 6. Three plate moulds.
2. 2.0 Transfer moulds: 16 11 2.1 Design of integral pot and auxiliary ram type moulds 2.2 Typical dsigns of standard mould parts like transfer pots, transfer plungers, sprue bush, runners and gates 2.3 Types of sprue and gates 2.4 Gating systems employed in transfer moulds & balanced runner systems 2.5 Simple calculations for transfer pot, transfer plunger, transfer pressure, clamping pressure etc. Practice: I. Transfer moulds integral pot and / or auxiliary ram type.
3. 3.0 Mould heating: 08 05
138
3.1 Steam heating 3.2 Thermic fluid heating 3.3 Electrical heating & resistance, capacitance and inductance heating
3.4 Types of heater
SECTION -II MOULD DESIGN (50 MARKS)
6. IMPLEMENTATION STRATEGY (PLANNING): 1.Shall comprise of design and drawings of moulds. At least six exercises from given above. 3. Practical Examination : Shall consist of an oral based-on the theory and term work. 2. Lesson Plan 3. Teaching Plan
7. REFERENCE BOOKS:
Sr. No. Author Title Edition Year of
Publication Publishers & Address
I J.H. DuBois W.1. Pribble
Plastic Mold Engineering 1st 1965
Van Naslrnad Reinhold Company, New York.
2. Laszla Sors Plastic Mold Engineering 1st 1967
Headinton Hill Han Oxford, 4 & 5 Fitzroy Square, London WI
139
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS :
Course : Plastics Engineering Semester : IV
Duration : 16 weeks
Subject : Basic Hydraulics & Pneumatics Code : ME-52
Group : C* Compulsory
2. TEACHING AND EXAMINATION SCHEME :
Teaching Scheme Credits Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs.
per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
02 -- 02 04 03 01 100 80 20 50 50 200
3. RATIONALE :
In plastics processing machines movements of different components are obtained by making use of hydraulic & pneumatics systems. They are required to perform different functions in specific sequence. This can be achieved proper components and connecting them in logical form.
4. OBJECTIVES :
The students will be
1. In a position to study functions of various components. 2. In a position to select appropriate components. 3. In a position to study relative merits and demerits of the components.
140
4. In a position to design the circuit.
5. DETAILED CONTENTS :
Chapt
Content
SECTION-I
Marks
Hours
1. 1.0 Fluids and their properties :
1.1 Elementary knowledge of fluids and their properties
such as adhesion, cohesion, specific weight, viscosity
index, surface tension, capillary, compressibility,
Vapour pressure etc.
1.2 Selection of fluids for various applications
1.3 Fluid tubes, connectors & other fittings
1.4 Fluid contaminations, types, effect of & control, fluid filtration.
08
02
2. 2.0 Fluid pressure :
2.1 Pressure at point
2.2 Pressure head
2.3 Pascal’s law
2.4 Principle of hydraulic press, work & power
2.5 Atmospheric pressure, absolute pressure and gauge
Pressure, measurement of flow pressure & flow pressure drop
2.6 Positive and negative pressure
3. 3.0 Flow of fluids :
3.1 Laminar and turbulent flow
3.2 Critical velocity
08 02
06
01
141
3.3 Energies of flowing fluids
3.4 Bernoulli’s theorem and applications
4. 4.0 Pneumatics :
4.1 Types of Compressors & selections, Advantages and limitation of pneumatic systems, Pneumatic circuit
elements
4.2. Conditioning of air & its need, FRL unit
4.2.1 Flow control valves
4.2.2 Shuttle vales
4.2.3 Quick exhaust valves
4.2.4 Directional control valves & types and actuation
4.2.5 Non-return valve
4.2.6 Safety valve
4.2.7 Linear actuators (single and double acting cylinders)
4.2.8 Air motors (rotary actuators)
4.3 Simple pneumatic circuits involving operation of 1
or two actuators. (reading and understanding only)
05
05
05
05
05
05
05
25
01
01
01
01
01
01
05
82 16
SECTION – II
5.c 5.0 Oil hydraulics :
5.1 Advantages and limitations over mechanical system
5.2 Hydraulic circuit elements (symbols)
5.2.1 Pumps & types (Vane pumps, Piston pumps,ced balanced pumps types, positive & negative displacement pumps, fixed & variable displacement pumps & size rating, types –
05
01
142
radial, axial, bent axis, inline, Gear pumps – internal &
external construction & application)
4.2.2 Pressure override & relief valves, unloading
4.2.3 relief valve, construction & applications.
5.2.3 Pressure control valves & unloading valves and
pressure reducing valves –direct acting & pilot operated.
5.2.4 Flow control valves & types
5.2.5 Directional control valves & types and actuations
5.2.6 Strainer
5.2.7 Linear actuators & types
5.2.8 Rotary actuators (hydro motors- construction,
sizing & application formula, cushions, stop tubes,
spacers & mountings) & types like vane motors, piston
motors, and gear motors – efficiency, speed,
pressure, requirement formula for motor applications.
5.2.9 Rating displacement torque, starting & running
torque.
5.2.10 Oil seals & types.
Aspects to be covered are constructional
features, working, maintenance, application,
selection and circuit symbols.
5.2.11 reservoirs construction, accessories.
5.3 Simple hydraulic circuits & sequential circuit, counter
balanced circuits, regenerative circuits, meter in,
10
05
05
05
05
10
10
02
03
01
01
01
02
02
143
meter out and bleed off circuits etc. & reading and
understanding only
5.4 Concepts of cartridges
5.5 Elementary ideas of servo valves and proportional valves
5.6 Hydraulic accessories – accumulators – types & applications, intensifiers, pressure switches & gauges.
15
05
03
01
01
82 16
Practice :
1. Study of various pneumatic circuit elements.
2. Study of various pneumatic circuits.
3. Study & Operation of simple equipments based on
pneumatic control.
4. Stud of various hydraulic circuit elements.
5. Study various hydraulic circuits.
6. Study and operation of simple equipments based on
hydraulic control.
144
6. IMPLEMENTATION STRATEGY (PLANNING) :
Shall consist of a journal based on study/demonstration
Practical Examination : Shall consist of an oral based on the term work.
5. REFERENCE BOOKS :
Sr.No
Author Title Edition Year of Publication
Publishers & Address
1. Manual of Speery Vickers
8th 1974 Speey Rand Corporation Troy Michigan, U.S.A.
2. ABC of Hydraulics & Pneumatic Circuits
Stewart
3. Pneumatic Circuits & Low Cost Estimation
J.R. Fowcett 4th 1986 Trod & Technord press Ltd. Modern Suney, England
4. Fundamentals of Pneumatic Control Engg.
J. P. Hasebrink & R. Kobler
2nd 1978 Festo Didaetic, D-7300, Esslingen, W. Germany
145
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1 . SUBJECT DETAILS
(Dec-May 2010)
Course : Plastics Engineering Semester : IV
Subject : Elastomer Technology Code : PE 68
Group : A Optional
2. TEACHING AND EXAMINATION SCHEME
Teaching Scheme Credits Examination Scheme and Maximum Marks
Paper
Theory Hrs. per
week
Tutorial
Hrs per week
Practical Hrs.
per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
02 -- 02 04 03 01 100 80 20 50 150
3. RATIONALE
TPE are wonderful materials which behave like rubber and shows peoperties and processing like thermoplastic. This subject is framed to make the students aware about various elastomers and TPE, their preparation, properties, processing, testing and applications.
4. OBJECTIVES
The student will be able to
1. To select suitable material, process, manufacture & test rubber products. Understand procedures for converting raw rubber into finished rubber products, procedure for vulcanization, compounding and processing also procedure for testing products as per standards.Principle of vulcanization, mixing and compounding, reinforcement, blending, processing.
2. Understand manufacturing, processing, properties and applications of TPE.
146
3.Select raw materials, additives, vulcanizing and curing agents, blends, various equipments, instruments for compounding, processing, testing, moulds and dies, post treatments.
5. DETAILED CONTENTS
SECTION I
Chapter Marks Hours
1.0 Molecular requirements of rubbery materials.
1.1 Stages in raw rubber and latex technology 05 01
1.2 Compounding ingredients- Vulcanization System, Stabilizer, Processing aids 05 01
Fillers & Reinforcements
1.3 Vulcanization process and methods 05 01
1.4 Componding recipes, compounding methods and processing 17 03
practices adopted for selected products such as seals, o-rings, gaskets,
conveyor belts, hoses, cables, tyre.
2.0 Different types of rubbers, their chemical structure, compounding 20 04
Considerations and application.
3.0 Processing of Rubbers : Calendering, Extrusion, Transfer, 20 04
Compression & Injection processes.
4.0 Testing of Elastomers :: abrasion, hardness, weather, water and 10 02
chemical resistance, flex etc
Total: 82 16
SECTION II
5.0 : Introduction of Thermoplastics Elastomer,
5.1: comparision of TPE, Plastics, Rubber, Processing, classes of TPE. 10 01
6.0 : STYRENIC Thermoplastic Elastomer
6.1: Structure, production, morphology, properties, 15 02
6.2:compounding, applications, additives and blends. 05 01
7.0 : Thermoplastic Polyolefin elastomers
147
7.1:Raw material for TPO, preparation, properties, limitations, 05 02
7.2:compounding, processing and applications. 10 02
8.0 : Copolyester TPE, properties and applications. 10 02
9.0:Thermoplasticpolyurethaneelastomer 9.1:Chemistry Preparation of TPU, structure, properties 10 03
9.2:processing and applications. 05 01
10.0 : Polyamide TPE :
10.1:Structure, properties, 05 01
10.2:compounding and applications. 07 01
Total: 82 16
6. IMPLEMENTATION STRATEGIES
1. Classroom teaching : Review : Related topics from previously taught subjects. Use of multimedia, Charts, models, transparencies, learning materials.
2. Library : Referring to books, journals, manuals.
3. Exercise :Collection of specifications of various elastomer materials, products, specifications, manufacturing methods, storage, testing, vulcanization, compounding etc
4. Industry : Elastomer industry, Study of various processes, Faults and remedies.
7.0 REFERENCE BOOKS :
Author Title Edition Year Of Publication
Publisher & Address
C.N Blow, Hephurn
Rubber technology
D.C Bluckley Synthetic Rubber Chemistry & Technology
Morris, Morten Rubber technology
148
Benjamin M. Walker & Charles
P. Rader
Handbook Of Thermoplastic Elastomers
2nd 1990 V.N.R Company Newyork
Utraki L.A Commercial Polymer Blends. 1st 1998
Paul, Dr Newmans Polymer Blends Vol I & II 1978 New York
149
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course: Plastics Engineering Semester: IV
Duration 16 Weeks
Subject: Advanced Mathematics Code : MA 45
Group: C Optional
2.TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits Examination Scheme and Maximum Marks
Theory Hrs. Per Weeks
Practical Hrs. Per Weeks
Paper TH Sessional T/ W
Pract. Oral
Total
Hrs Np Mks
03 01 04 03 01 100 80 20 - - 100
3. RATIONAL: Advance Mathematics is classified as Basic Science subject which comprising the facts, concept and principles of Mathematics. These can be applied to solve problems in Civil, Mechanical and Plastic engineering.
4. OBJECTIVES: 1. The student will be able to fine the area under the curve, between the intersecting curves, vol. off revolution of a plane region about an axis. 2, Student will be able to find center of gravity or moment of inertia of a body using the process of integration. 3. The student will find solutions of different types of differential equations. 4. The student will be able to use statistical measures in quality control department on shop floor.
150
5. DETAILED CONTENTS:
Chapter Content . Marks Hours SECTION I 1. 1.0 Application of definite integrals such as: 40 12 1.1 Length of the arc 1.2 Area 1.3 Volume 1.4 Centre of Gravity 1.5 Moment of inertia 2. 2.0 Differential Equations: 42 12 2.1 Formation of differential equation 2.2 Differential equations of first order first degree with application. 2.3 Linear differential equations of higher order with constant coefficients such as f(D)y = X where X = e , sin (ax + b), cos (ax + b), xm, e V, where V is a function x, x1
SECTION -II 3. 1.0 Statistics: - I I Measures of Central tendency . 52 14 a) Mean b) Median c) Mode
1.2 Measures of dispersion a) Range b) Mean deviation c) Standard deviation d) Variance 4. 2.0 Elementary probability, binomial distribution and normal 30 10 distribution.
6. IMPLEMENTATION STRATEGY (PLANNING): As per teaching plan ad conducting tutorials in the class.
7. REFERENCE BOOKS:
151
Sr. No. Author Title Edition Year of
Publication Publishers & Address
1. Dr. B.S. Grewal Higher Engineering Mathematics
35 2000
Khanna Publisher, 2/B Delhi 110006
2. S. P. Deshpande Mathematics for Polytechnic Students —II
1st 1998
Vidyarthi Graha Prakashan, Pune
3. B.M. Patel J.M. Patel
Applied Mathematics I
7th 2002 Nirali Prakashan, Mumbai
152
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE: PLASTICS ENGG. FULL TIME w.e.f. batch admitted June, 2008 (Progressively)
INPLANT TRAINING EXAMINATION SCHEMES Effective from the Academic Term July/November,2008
V SEMESTER
Sr
No
Subject
Duration
Credit Weekly
Report
Quiz Test
Marks
Dissertation
(Report)
Oral/
Viva
Total
5.1 26 Weeks 15 Maximum Marks 50 50 50 50 200
Minimum Marks 20 20 20 20 80
153
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE: PLASTICS ENGG. FULL TIME w.e.f. batch admitted June, 2008 (Progressively)
SEMESTER: SIXTH TEACHING & EXAMINATION SCHEMES Effective from the Academic Term
July/November,2008
Sr
No
Subject Subject Code
Scheme of Instructions and Periods per week
No.of papers,
duration and marks
Scheme of Examination Gr Scheme L/P/Cr
L P D T Cr NP Hrs Mks SSL Paper T/W PR OR Total
1 #Adv. Hydraulics Penumatic & System Controls
ME-53 2 2 - - 4 1 3 100 20 80 25 - 25 150 A* 224
2 #Design of Moulds-II PE-60 3 - 3 - 6 1 4 100 20 80 25 - 50 175 C* 336
3 Manufacturing Eco & Mktg
PE-61 3 2 - - 5 1 3 100 20 80 25 - 25 150 M* 325
4 Poly. Comp.Blends & Alloys
PE-62 2 - - - 2 1 3 100 20 80 - - - 100 C 202
5 Plastics in Packaging PE-66 2 2 - - 4 1 3 100 20 80 25 - - 125 A 224
6 Metrology & Quality Control
ME-05 3 2 - - 5 1 3 100 20 80 25 - 25 150 M* 325
7 Mechanism ME-47 3 2 - - 5 1 3 100 20 80 25 - 25 150 C 325
TOTAL 18 10 3 - 31 07 PAPERS 140
560 150
- 150
1000
TOTAL PERIODS = 31 TOTAL MARKS = 1000
* Compulsory
L- Lecture Period SSL- Sessional P- Practical Period T/W- Term Work
(1) Unless stated, T.W. will be assessed by the Internal examiner D- Drawing Practice Period Pract- Practical based on considering the continuous assessment NP- No.of Papers Cr- Credit
by the concerned internal faculty Mks - Marks
(2) Unless stated, Practical, Practical/Oral (P/O), oral will by jointly by the internal and external examiners.
154
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:-
Course : Plastics Engineering SEMESTER : VI
Duration : 16 weeks
Subject : (#) Advanced Hydraulics, Pneumatics & System Controls Code : ME-53
Group : A* Compulsory
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs.
per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
02 -- 02 04 03 01 100 80 20 25 25 150
3. RATIONAL:
By using a latest development in hydraulic, pneumatic and system control , students can achive drastic change in construction of plastics moulding machines. This knowledge would help the students to read and understand electronic control systems used in plastic processing equipment
4.OBJECTIVES:
The student will be:
1. In a position to study functions of various machines. 2. In a position to select basic control concepts, closed loop system mechanism & fundamentals.
155
3. In a position to select advanced control techniques of latest Plastic Processing Machines. 4. In a position to understand electrical control components and touch screen programming.
5. DETAILED CONTENT:
Chapter Content Marks Hrs
SECTION-1
1.0 Basic Control Concepts
1.1Position control, on off solenoid valves, on off solenoid 15 03 valves with spool control, non-feedback proportional valves,
1.2 feedback proportional valves, high performance proportional 15 03
valves, servo valves, digitally controlled servo valves.
1.3 Velocity control, compensation for pressure and 12 02 temperature variation, conceptual control for proportional
and servo valves.
2.0 Closed Loop System Mechanism And Fundamentals
2.1 Control valves, closed loop proportional valves, servo Valves 10 02
2.2 Torque motor, nozzle and flapper assembly, main stage assembly, lap condition, flow gain, pressure gain, hysteresis, 10 02
2.3 Threshold, flow rating, step response, amplifiers, ramp modules, 10 02
2.4 Feedback and transducer fundamentals, types of transducers,
hydraulic system considerations. 10 02
156
Total 82 16
SECTION – II
3.0 Advanced control techniques
2.4 Position, velocity and acceleration, derivatives and integrals. 08 01 2.5 Proportional + Derivatives control (P + D),
Proportional + Integrals (P + I), Proportional +
Integral + Derivative control (PID). 20 04
4.0 Electrical and electronic control systems
2.6 Understanding electrical control components (switches, relays, contractors, temperature controllers, motor speed
control drives, temperature sensors, position sensors &
pressure sensors.), 14 03
4.2 understanding electrical logic and electrical
ladder diagrams 10 02
Programmable Logic Controller basics, components of a PLC control system ( Power supply, I/O cards, AD / DA
converters, Servo amplifiers ), Understanding a PLC ladder
diagram with examples, 20 04
4.4 Human Machine Interfacing and interfacing Devices,
touch-screen programming examples. 10 02
Total 82 16
Practice:
Shall consist of a journal base on study / demonstrations .
Practical Examination: Shall consists of an oral based on the term work
1) Demonstartion of Basic control valve concepts.
2) Demonstration of Fundamentals & Closed Loop System Mechanism.
3) Demonstration of Advanced control techniques
157
4) Demonstration of Electrical and electronic control components
6. IMPLEMENTION STRATEGY (PLANNING):
1. Demonstetion Practicals will be performing in the plastics laboratory as per academic schedule.
2. Lesson Plan
3. Teaching Plan
7. REFERENCE BOOKS:
Sr. No
Author Title Edition Year of Publication
Publishers & Address
1. Manual of Speery Vickers
8th 1974 Speey rand Corporation Troy Michigan, U.S.A
2. ABC of Hydraulics & Pneumatic Circuits
Stewart
3. Pneumatic Circuit & Low cost estimation
J.R.fowcett 4th 1986 Trod & Technord press Limited. Modern Suney,England.
4. Fundamental of Pneumatic Control Engg.
J.P Hasebrink & R.Kobler
2nd 1978 Festo Didaetic,D-7300,Esslingen,West Germany.
158
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering Semester : VI
Subject :- (#) Design of Moulds - II Duration: 16weeks
Group : C* CODE : PE 60
Compulsory
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credit Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs. per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
03 -- 03 06 04 01 100 80 20 25 50 175
3. RATIONALE:
Thermoplastic materials are processed by injection moulding, blow moulding and extrusion processes. They require special type of tooling to produce the articles of required size and shape to eject the articles from the injection mould demand special type of mechanism which depends upon complex nature of the article. Extrusion dies also demands special mechanism to extrude the product.
4. OBJECTIVES:
The student will :
5. Know different types of feeding system used in injection moulds. 6. Know different types of ejection mechanism. 7. Know the merits and demerits of hot runner system. 8. Understand various factors to be considered while designing dies for extrusion. 9. Know salient features of blow mould.
159
5. DETAILED CONTENTS:
Chapter Content Marks Hrs
SECTION-1
1 1.0 Injection Moulds 52 32
1.1 Types and two plate and three plate moulds 1.2 Ejection system, cooling system, gating system, venting
and slug well systems.
1.1 Mould for extended nozzle.
1.2 Design of size of sprue, runners and gates. Sprue lock and ejection
of sprue, runners and gates.
1.3 Hand moulds and automatic moulds.
1.4 Moulds for articles with undercuts, split moulds & types of actuation,
Moulds with side cores. Consideration in deciding upon the parting line
1.5 Hot runner moulds and design considerations.
1.6 Elementary ideas of injection moulds for thermosets including sheet
Mould compound and bulk moulding compound.
1.7 Mould economics & determination of number of cavities and cost
Estimation.
Practice 1. Consisting of two sheets showing assembly and details of a simple injection mould. 2. Three different types of injection moulds from mentioned above on three sheets.
2.0 Extrusion die design : 12 08
160
2.1 Control of flow properties and heater design 2.2 Design aspect of following extrusion dies: 2.2.1 Pipe dies & torpedo, mandrel, land length, angle of entry 2.2.2 Sheet die & coat hanger and T-die & control of thickness 2.2.3 Monofilament die & stretch ration and ultimate thread size 2.2.4 Tape die , 2.2.5 Profile die & elementary treatment Practice: 1. One sheet on extrusion die from mentioned above
3 3.0 Blow moulds: 08 04 3.1 Die design for parison control with PVC and PE 3.2 Design of simple blow moulds.
4.0 Fabrication: 08 04 4. 1 Materials for mould fabrication, heat and surface treatment 4.2 Mould making machinery, hobbing, coy milling, die sinking, jig boring,
Pantograph, spark erosion, electro forming etc 4.3 Details of the process, selection, tools and accessories 4.4 Mould polishing
SECTION – II DESIGN OF MOULDS (50 MARKS)
6. IMPLEMENTION STRATEGY (PLANNING):
1. Practical Examination : (Oral based) Shall consist questions from theory and term work.
2. Lesson Plan
3. Teaching Plan
7. REFERENCE BOOKS:
Sr. No
Author Title Edition Year of Publication
Publishers & Address
1. R.G. Pye Injection Mould
2nd 1978 George Godwin Ltd., 2-4,
161
Design Cathezinest, London WC-2
2. M.V. Joshi
Dies for Plastic
Extrusion
1st 1984
Rajkamal Electrical Press, 4163,
Aryapura, Delhi.
3. Narbert M. Bikales
Moulding of Plastics
1st 1971 Division Of John Willy & Sons New
York
4.
Irvin Z. Rubin
Injection Moulding Theory & Practice
1st 1972 Division Of John
Willy & Sons New York
162
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering Semester : VI
Subject : Manufacturing Economics and Marketing Duration: 16weeks
Group : M* CODE: PE - 61 Compulsory
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits
Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs. per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
03 -- 02 05 03 01 100 80 20 25 25 150
3. RATIONALE:
The Students of Plastic Engineering after completing their Diploma program generally get employed in production or marketing area of Industry . For this, they require sound technical knowledge as well as basic knowledge of Economics and Marketing. They must be able to calculate product cost and understand the basics of Business finance. A fundamental knowledge of marketing is essential for these engineers which enable them to understand the process of marketing function. Though they will learn the practical implication of this subject while on job, a foundation need to be done during the Diploma Programme.
4. OBJECTIVES:
1. To understand the concepts of cost and how to calculate product cost. 2. To understand the basics of Business Finance. 3. To understand the Time Value of Money. 4. To have basic knowledge of marketing and sales
163
5. To understand the methods and Techniques of marketing the products 6. To know how marketing is helpful for production and other functions of the organization.
5. DETAILED CONTENT 6. Content Marks Hrs
SECTION-1
1 1.0 Economic Flow Chart 16 04
1.1 Conversion of values by financing procurement, manufacturing and marketing 1.2 The nature of the problems arising i the economic flow the efficiency of flow values . 1.3 The concept of Block capital and working capital. Practice: Economic flow chart in a manufacturing firm.
2.0 Costs and Cost Estimation 16 05
2.1 Definition — cost of production cost of sales, Labour cost,
Maternal cost other Expenses. 2.2 Variations of the elements of opuating cost with capactly
or Rate of Production 2.3 Total cost - unit cost — Fixed and variable expenses — estimating
operating cost.
2.4 Types of expenses — Methods of alloeding Expenses.
2.5 Cost valence — Types of cost valence Maltial Labour overheads
Practice: Classification
3 3.0 Break Even Analysis 16 04 3.1 Break Even chart — Its uses 3.2 The concept of value analysis and value Engineering.
164
Practice: Break Even Chart Preparation.
4.0 Depreciation & Deprecation According 16 05 4.1 Causes and significance — Deprecation Fund 4.2 Methods for Proving Deprecation. 4.3 Book Value of depreciated Assets Taxes and depreciation.
Practice: Illustration of Depreciation Accounting
5.0 Comparisons of Alternatives 12 04 5.1 Types of Irrvostment Project There characteristics
5.2 Conventional Methods for comparison of alternatives pay art period.- rate of returns. 5.3 Discounted cash flow methods Net present value yield Future value Annual capital charge. Cash flow project — Incimental
DCF Returns Practice: Methods of Evaluating Investment Projects
6.0 Evaluation of replacements replacement polleus and methods 06 02
SECTION – II
7.0 Marketing Environment 18 05 7.1 Marketing Concept 7.2 Faclors in company’s micro Environment 7.3 Factors in the company’s micro Environment Practice: Micro- Macro Environment Scanning
8.0 Market segmentation 12 04 8.1 Evolution of Market segmentation concepts 8.2 Alternative segmentation approaches
165
8.3 Segmentation 8.4 Types of consumer market segments
9.0 Methods of Demand fore casting 10 03 9.1 Introduction to the concept of Demands, supply and Demand determinants 9.2 Surrey of Buyers intentions 9.3 Composite of sales force option 9.4 Expect opinion 9.5 Market Test methods 9.6 Time — series analysis 9.7 Stalislied demand analysis Practice: Methods of sales/demand fore casting
10.0 Pricing Polienes 10 03 10.1 Cost Oriented Price setting 10.2 Markets pricing — Target pricing 10.3 Demand oriented Pricing 10.4 Competition oriented pricing Initiative pricing — sealed bio pricing Practice: Illustration of pricing technique
11.0 Product Life cycle — stages in the Product life cycle 14 03 11.1 Introduction — Growth — matinaty - Decline
12.0 Marketing Strategies 06 02 12.1 Various.Strategies of Marketing
Practice: Analysis of Marketing Strategies
13.0 Packaging Promotion and Advertising. 12 04
6. IMPLEMENTION STRATEGY (PLANNING):
Lecture/ practical/ student centered activities such as Group Discussion, Presentation, Role Play etc.
7. REFERENCE BOOKS:
166
Sr. No. Author Title Edition
Year of Publication
Publishers & Address
I. T.R. Banga S.C. Sharma
Industrial organization &
Engineering Economics
Nil 1995 Khanna Publication, 2-B, Nath
Market, Naisarak, Delhi- 110006
2. Philip Kotler Marketing
Management 8th 2000 Tata MG Gregeh
3. S.A.
Sherlekar Marketing
Management 3 2001
Himalaya Publishing House, Ramdoot, Dr. Bhalera Marg, (Kelewadi) Girgaon,
Mumbai400004
PRACTICAL EXAMINATIONS :
Shall consist of an oral based on term work.
167
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering SEMESTER : VI
Duration : 16 weeks
Subject : Polymer Composites, Blends & Alloys Code : PE-62
Group : C Optional
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs. per week
Hrs.
Np
Mks
TH
Sessional
T/W
Pract/Oral
Total
02 -- -- 02 03 01 100 80 20 - - 100
3. RATIONALE:
A single plastics cannot give the complete solutions for the customer. So as to reduce the cost, to ease the processing and to get good properties of the article we have to mix two polymers, so the student can be able to design a new blend by comparing properties, cost, processing parameters of the polymer.
4. OBJECTIVES:
1. To get latest information about new polymer blends. 2. To study the basic manufacturing process of polymer blends and alloys. 3. To be aware with recycling, manufacturing and testing of composites.
168
5. DETAILED CONTENTS:
Chapter Content Marks Hrs
SECTION-1
1 1.0 Types of polymer: 10 02 1.1 Homopolymer
1.2 Copolymer — Block copolymer, Graft copolymer, Inter-
penetrating polymers.
2 2.0 Polymer alloys: 35 11 2.1 Definition 2.2 Method of incorporation and mixing 2.3 Types of alloys available — properties and applications
3 3.0 Polymer blends: 35 11 3.1 Definition 3.2 Method of mixing and incorporation 3.3 Types of blends available — properties, processing.
SECTION – II
4 4.0 Composites 35 11 4.1 Raw Materials : Resins and polymer systems, reinforcing, agents, filters, other additives 4.2 Processing Methods : Hand lay up techniques, bag moulding process Matched Die moulding, pultrusion Filament winding, Injection moulding 4.3 Designing Design concepts, sandwich construction joining and machining techniques 4.4 Compositions: SMC. DMC, TMC, XMC etc
169
5 5.0 Testing 06 02
6 6.0 Conducting and magnetic polymer composites 06 02
7. 7.0 Ceramic based composites 04 01
8. 8.0 Recycling of polymers 10 02
9. 9.0 Introduction to recent advances 09 02
6. IMPLEMENTION STRATEGY (PLANNING):
1.0 The subject shall be taught using proper sketches and studying the basic properties of various polymers. Underlying thermodynamics principles, basic definitions and thumb rules of design of various blends and alloys shall be explained. Industrial applications of this subject with respect to various sources, preparation/compounding of various blends, alloys ,cornposites, and their applications and manufacturing techniques shall be explained to the students. 2.0 Lesson Plan 3.0 Teaching Plan
7. REFERENCE BOOKS:
Sr. No. Author Title Edition
Year of Publication
Publishers & Address
1.
Literatures from
Various Companies
2 L.A.
Utracki Polymer Alloys &
Blends 1st 1998
Champman Hall New York
3.
R.P. Singh L.K. Das
S.K. Mustafi
Polymer Blends & Alloys
1st 2002 Asian Book Pvt. Ltd., New Delhi
.
170
4.
C.P. Rader B.W.
Walker
Handbook of Thermoplastics
Elastomer 1st 1993
Van Nostrand Reinhold, New York
5. M.J.
Folkes P.S. Hope
Polymer Blends & Alloys,
1st 1993 Blackie Academic and Professional
Champman and Hall
6.
John V. Milewski Harry S.
Katz
Handbook of Reinforcements
1st 1987 Van Nostpand
Reinhold, New York
171
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
(w.e.f-batch admitted June,2008 (progressively)
1. SUBJECT DETAILS : (Dec-May,2011)
Course : Plastics Engineering Semester : VI
Duration : 16 weeks
Subject : Plastics in Packaging Code : PE-66
Group : A Optional
2. TEACHING AND EXAMINATION SCHEME :
Teaching Scheme Credits Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs.
per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
02 -- 02 04 03 01 100 80 20 25 -- 125
3. RATIONALE :
Plastics has emerged as an important material to cater to the need of many applications& more so for packaging area because of its specific advantages from asthetic & functional point of view.
4. OBJECTIVES: The student will be
1. Familiarize with various materials used in packaging in various forms 2. Familiarize processing techniques require for various packaging applications 3. Understand testing of packaging products, & packaging hazardous 4. To provide inputs to explore further avenues in speciality application areas in packaging
172
5. DETAILED CONTENTS:
Chapter
Content
Marks Hours
SECTION-I
1. 1.0 Packaging:
1.1 Historical background, definition of packaging as an integral part of production & marketing.
1.2. Basic concepts- Physical & Physico-chemical such as collogative properties, gas laws, surface tension, dialysis, diffusion, energy measurements, etc.
1.3 Package – components, separations, clearance, support, positioning, cushioning, weight distribution, suspension & closures
05
05
05
01
01
01
2. 2.0 Packaging Characteristic :
2.1 Physical characteristics of product – physical state, weight, center of gravity, symmetry, fragility, rigidity, surface finish, etc.
2.2 Physico-chemical characteristic – susceptibility to water, water vapour, gases, odour, heat, light – mechanism of spoilage.
2.3 Principles of corrosion & prevention.
2.4 Compatibility – permissible plasticizers in plastics & coating media, their migration to food – can lining compounds & lacquers for containers for fruit & vegetables, fish, meat & other products.
2.5 Package design – factors influencing design / product-package relationship. Role of nano technology in packaging
05
05
05
02
03
01
01
01
01
01
3 3.0 Various plastics materials used in packaging their properties, advantages & limitations.
3.1 PE, PP, PVC, PS, POLYESTER,
3.2 NYLON, EVA COPOLYMER, EVOH, PC, IONOMER,
3.3 PVDC, IMIDE COPLYMERS, ADHESIVE RESIN, &
15
15
03
03
173
ACIDIC COPOLYMER OF ETHELENE. 15 03
SECTION – II
4. 4.0 Basic brief introduction of following Conversion Processes :
4.1 Injection moulding- containers, closures, containers with safety closures, small size containers.
4.2 Extrusion process- Mono layer, multi layer, shrink, oriented films, cast, coating films, tapes, woven sacks, aluminium foil, laminations, sheet, tubes & profiles, twist wrap film, plasma barrier coating.
4.3 Blow molding process- composite containers, composite drums, small hollow containers , medical & pharmaceutical bottles, stretch blow moulding
4.4 Foam moulding process – expanded polyethylene, poly styrene, structural & decorative foams.
4.5 Rotary thermo forming, Batch & continuous thermo forming, Compression Moulding, Transfer moulding
08
10
08
05
06
01
02
02
01
01
5 5.0 Fabrication & decorative Techniques:
5.1 Cutting, sealing, welding, adhesive bonding.
5.2 Printing, metallising, embossing, labeling, painting, lacquring, foil in lay moulding, hot stamping, Inmould decoration
05
10
01
02
6 6.0 Packaging & Hazardous & their controls
6.1 Types – static charge problems, damaging factors & effects Pollution factors
6.2 Toxicity of Materials
10 02
7 7.0 Testing Of Plastics Packages
7.1 Introduction
05
01
174
General test methods,
7.2 Heavy duty packages, laminates, drop tests, stack test, load test, vibration test,
7.3 Testing of flexible films, Indian standerd .for food containers
10
05
02
01
Total 82 16
Practice:
Practical will be perform in the Plastics laboratory as per academic schedule. Where the students will perform following experiments individually.
1) Determination of Tensile strenght & % elongation of film.
2) Determination of Dart impact strength.
3) Demonstration of stack & load test
4) Determination of MFI
5) Demonstration of welding, printing, painting, lebeling, hot stamping
6) Determination of Toxicity & barrier test
6. IMPLEMENTATION STRATEGY (PLANNING) :
1. Demonstetion Practicals will be performing in the plastics laboratory as per academic schedule. Where the students will perform various experiments individually.
2. Lesson Plan
3. Teaching Plan
7. REFERENCE BOOKS :
Sr.No.
Author Title Edition
Year of Publication
Publishers & Address
1. Honlon J F Packaging Engineering
2nd
1984
McGraw Hill
175
2. Bruins Paul F
Packaging with plastics
5th
1974
Gordon & Breach
3. F.W. Billmeyer
Text book of polymer science
4th
2000
John wiley & sons, New York
4. John Briston Advances in plastics packaging
technology
2nd
2004
John wiley & sons, New York
176
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering Semester : VI
Duration:16 weeks
Subject : Metrology and Quality Control Code: ME- 05
Group: Application M* Compulsory
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits Examination Scheme and Maximum marks
Paper Theory
Hrs/wk
Tutorial Hrs.
Per week
hrs Np Mks
TH Sessional T/W Pract
Oral
Total
03 02 05 03 01 100 80 20 25 25 150
3.RATIONALE :
The mechanical Engineering technician often comes across measuring different parameters of machined components and the appropriate fitment of interchangeable components in the assemblies. For the above purpose he/she is also required to analyze the quantitative determination of physical magnitude and ensure the control of quality.
The different methods and instruments which can be used for linear and angular measurements, geometrical parameters (like surface finish,squareness,parallelism,roundness etc..) and the use of gauges and system of limits ,Fits,Tolerances etc .are also required to analyze ,Interpret and present the data collected ,graphically and statistically for ensuring the quality.
The knowledge of the subject also forms the basis for the design of mechanical measurements systems , design and drawing of mechanical components .
4. OBJECTIVES:
177
It develops understanding of construction ,working and use of different measuring instruments .It develops understanding of selection of appropriate instruments for specific measurements . It also develops understanding of different statistical quality control tools used to improve quality of product
SECTION I
5. DETAILED CONTENTS
Chapter Contents Marks Theory Pracs
01
Introduction To Metrology
1.1 Definition of metrology,categories of metrology, Scientific metrology ,Industrial metrology, Legal metrology
1.2 Need of inspection
1.3 Concepts of precision,Accuracy, Sensitivity,Readability,Calibration, traceability, Reproducibilty
1.4 Sources of errors ,Factores affecting accuracy ,Selection of instruments ,Precautions while using instruments for getting higher precision and accuracy.
Practicals :
(i) Study and use of vernier caliper.
(ii) Study and use of screw micrometer.
(iii) Study and use of vernier depth gauge
(iv) Study and use of Depth micrometer
(v) Study and use of Inside micrometer
06
02
02
02
02
02
01
02
Standards of measurements
2.1 Definition and introduction and comparison – line standard ,End standard and wavelength standard.
Comparison
2.2 slip gauge and its accessories, Length Bars
06
02
178
03
Comparators
3.1 Definition ,requirements of a good comparator
3.2 Working principles of comparators, Use of comparators Dial indicator ,Johannsson mikrokator, Sigma comparator, Pneumatic comparator, Electrical ,Electronics comparators
3.3 Advantages and disadvantages
Practicals
(i) Study and use of mechanical comparators (ii) Study and use of dial micrometer (iii) Study and use of dial bore gauge
14
04
02
02
01
04 Angle measurement
4.1 Concept of angle measurement ,Instruments for angle measurement
4.2 working and use of Bevel protractor, Sine bar, spirit level, Sine centre, clinometers, angle gauges, Autocollimator
Practical’s
(i) Study and use of Bevel protractor (ii) Study and use of Sine bar
10 03
05
Limits, Fits, Tolerances and limit Gauges
5.1 Concept of limits, Fits, Tolerances.
5.2 Interchangeability and selective assembly
5.3 Hole and shaft basis system.
5.4 Taylor’s principle of gauge design
5.5 Design of plug and ring gauges
08
02
179
06
07
08
09
Metrology of screw threads
6.1 Errors in threads, pitch errors
6.2 Measurements of elements such as major diameter. Minor diameter, effective diameter , pitch and angle for external threads.(Two wire method, three wire method, thread micrometer, floating carriage micrometer)
Practical’s
(i) To find major diameter ,minor diameter ,pitch and angle of thread on toolmakers microscope
(ii) Study of screw pitch micrometer.
Gear measurement
7.1 Analytical and functional inspection ,Rolling test ,measurement of tooth thickness(constant chord method),gear tooth vernier.
7.2 Errors in gears such as backlash run out,composite
Practicals:
(i) Study of gear tooth vernier
Measurement of surface finish
8.1 Primary and secondary texture,sampling length,Lay,CLA,Ra,RMS,Rz values and their interpretation.
8.2 Various techniques of qualitative analysis,working principle of stylus probe instruments such as Tomlinson surface meter
Measurement and Testing
9.1 Testing straightness – Wedge method ,Use of spirit level and autocollimator.
9.2 Testing flatness – Use of spirit level/autocollimator,Use of optical flat
9.3 Squareness testing Indicator method use of optical square
10
10
08
10
03
03
02
03
02
01
01
180
10
11
12
9.4 Toolmakersmicroscope
9.5 profile projector
Practicals
(i) Use of optical flat to inspect flatness of slip gauges
TOTAL
SECTION II
Quality control
10.1 Meaning of quality,quality control
10.2 inspection stages ,comparison between inspection and quality control,meaning of quality of design quality of conformance,quality of performance ,factors affecting them,
10.3 cost of quality,value of quality,optimum quality of design
10.4 concpt of realibilty
10.5 quality assurance
10.6 vendor ratings,vendor quality ratings
Total quality management
11.1 principles of TQM customer focus ,commitment by top management ,continous improvement – PDCA, quality circles,employee empowerment
11.2 quality audit – concept of audit practices, lead assessor certification
11.3 six sigma statistical meaning,methodology of system improvement,DMAIC cycle ,yellow belt,green belt,black belt certification
ISO 9000 series and other standards
12.1 concept ,ISO 9000 series quality standards
82
14
14
06
24
04
04
02
01
23
181
13
14
12.2 QS 14000 ,standards in general its evaluation and implications necessity of ISO certification.
12.3 other quality systems
Statistical quality control
13.1 Meaning and importance of SQC.
13.2 Variable and attribute measurements ,chance and assignable causes variation.
13.3 Frequency histogram,polygon,bar chart.
13.4 Normal distribution curve characteristics uses process capability capable and incapable process possible relations of process in control with USL and LSL,Cp,Cpk
13.5 control chart for variables –X and R chart (calculation of trial control limits , revised control limits ,interpretation and conclusion)
13.6 control chart for attributes-p chart ,np chart,c chart (calculation of trial control limits, revised control limits, Interpretation and conclusion)
13.7 Pareto analysis, cause and effect diagram, scatter diagram.
Practicals
(i) Quality control by statistical methods .plotting the charts from given data.
(a) Frequency Histogram (b) Normal distribution curve (c) Control chart for average and range (d) Control chart for fraction defectives (e) Control chart for number of defectives
Acceptance sampling
14.1 concept comparison with 100% inspection
14.2 types of sampling plans merits and demerits
14.3operating characteristics curve importance significance producers risk consumer risk AQL,IQL,LTPD,AOQL
38
10
11
03
01
02
02
02
02
182
TOTAL
82
24
09
6. IMPLEMENTATION STRATEGY (PLANNING):
In depth study and understanding of the subject will be implemented by adopting the following strategy
(i) Lesson plan
(ii) Use of charts,models and transparencies
(iii) Use of actual devices
7. REFERENCE BOOKS
Sr No
Author
Title Edition
Year of Publication
Publishers & Address
1
R.K Jain Engineering metrology
XII 2005 Khanna publishers,2B,Nath market, new
delhi-06
2 I.C Gupta Engineering metrology
XIII
2002
Dhanpat rai and sons 1682 nai sarak new delhi- 06
3 M.S Mahajan
Statistical quality control
XVI 2002
Dhanpat rai and sons 1682 nai sarak new
delhi- 06
4 Grant Leavenworth
.
Statistical quality
II 1988
Tata Mc graw hill book co singapore
183
control
5 J.M.Juran
Quality planning
and analysis
III 1995 Tata Mc graw hill,4/12 asaf ali road new delhi
6
Besterfield,Dale.H
Total quality
management
III --- Prentice hall , new delhi
184
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS
Course : Plastics Engineering Semester : VI
Subject : Mechanisms Duration: 16weeks
CODE: ME -47
Group : Core © Compulsory
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs. per week
Hrs.
Np
Mks
TH
Sessional
T/W
Pract/Oral
Total
03 -- 02 05 03 01 100 80 20 25 25 150
3. RATIONALE:
The student has to work for design, production, maintenance of machines, assemblies, sub assemblies etc. He should be aware of working considering motion/power for various drives and other machine components. This subject is continuation of physics, engineering drawing , mechanics and base for machine design. It also forms part of mechanical technology, manufacturing engineering, production engineering etc
4. OBJECTIVES:
The objectives include study of various mechanical drives commonly used. It includes use of friction in belt drives, clutch and brake. Losses due to friction in bearing. The study of special purpose drive like cam drive and friction clutches. The use of vector diagrams to calculate velocity and acceleration of links in simple mechanisms. Basics, classification and application of gears and basic study of flywheel and governor.
185
5. DETAILED CONTENTS:
Chapter Content Marks Hrs
SECTION-1
1 1.0 Kinematics 10 04 1.1 Basics of Kinematics
1.2 Types of kinematic pair
1.3 Various simple mechanisms, its inversions for
Working and application.
Practicals
Terminology for kinematics - 02
2 2.0 Velocity and acceleration diagrams 20 10 2.1 Basics, types of velocity and acceleration –
Angular, linear motion and corelation 2.2 Absolute, relative velocity and acceleration for simple mechanism – single & double crank mechanism
2.3 Use of velocity and acceleration diagrams to find velocity and acceleration of various elements/points on simple mechanism. 2.4 Use of Klein`s &Bannett’s construction for Single crank mechanism with uniform angular velocity (Coriolis acceleration component to be excluded) Practicals: - 04
1 Simple mechanisms and inversion
186
2 Velocity and acceleration
3 3.0 Gear and Gear trains 20 08 3.1 Gear terminology. 3.2. Types of gears and applications. 3.3 Law of gearing and sliding velocity 3.4 Profiles of gear tooth and comparison, interference in involutes profile. 3.5.Classification of gear trains. 3.6 Designing of simple spur gear train of teeth and exact centre to centre distance for Given velocity ratio, module and approximate Centre to centre distance. 3.7 To find speed of different gears and arms for Epi-cyclic gear train (Simple & compound). PRACTICALIS 10 1) Gear terminology 2) Types of gear; 3) Types of gear train 4) Differential gear system. 5) Four speed gear box (sliding mesh).
4 4.0 Cam 16 06 4.1 Types of cams and. followers. 4.2 Cam terminology. 4.3 Design of radial (disc) cam profile for. Knife/roller/flatfaced follower having uniform Velocity/S H M /uniform acceleration and retardation PRACTICAL/S . . 04 (1) Cam terminology and classification of cam and followers (2) Cam profile drawing
5 (5) Gyroscope 5.1 Introduction to gyroscope couple 5.2. Effect of gyroscope couple in Aeroplane & Naval ship 16 04
187
SECTION II
6 (6) Belt, Rope. and chain Drive 6.1 Types of belt drives, open/cross, flat/v/rope, Simple & compound,
etc; types of pulleys 20 08 6.2 Velocity ratio for belt drive, consideration of Slip & belt thickness, creep & it’s effect 6.3 Calculation of length of belt for open/cross Belt drive approximation of it, angle of Grooved pulley 6.4 Working. tension, initial, centrifugal Tension, safe tension and their relation for belt & rope drive consideration of co-efficient of Friction. contact angle &. grooved angle of grooved pulley 6.5 Power transmission calculation for belt drive, To fid dimension of belt/pulley for Power &. max pover 6.6. Comparison between various belt drive 6.7 Chain drives and it’s comparison with other mechanical drives. 6.8 types of chain &. applications, consideration Ratio of chain chive PRACTICALS (1) Belt drives (2) Chain, drives’ (3) Types of mechanical drives
(7) Brakes 16 06 7.1 Introduction, operating systems, brake material Characteristics 7.2. types’ of mechanical brakes 7.3 Simple problem for single, double, band Band & block brake for torque/power/force Applied PRACTICALS. .. (1) Different types of brakes and its classification -- 02
8) Bearing 06 02 8.1 Friction in bearing 8.2 Types & -relation with clutch 8.3 Uniform intensity of pressure &.uniform wear Conditions 8.4 Frictional and Antifriction bearing and types PRACTICALS -- 02 (1) Different type of bearings
(9) Clutches 16 06 9.1 Working of frictional clutches 9.2 Types of frictional clutches 9.3 Friction torque/power calculation to find Dimension of clutches
188
9.4 Centrifugal clutch, construction & working, Its comparison with other clutches PRACTICAL’S -- 02 1) Different types of clutches
(10) Flywheel & Governors 10 04 10.1 Introduction to flywheel 10.2 Function of flywheel 10.3 Introduction to governor 10.4: Function & types of governor 10.5 Comparison between flywheel & governors
(11) Balancing and Vibration 14 06 11.1 Balancing of rotating masses 11.2 Balancing by1a single mass rotating in the same plane 11.3 Balancing hyseveral masses rotating in different planes’ 11.4.Concept of balancing of reciprocating masses 11.5 Concept of vibration 11.6 Types of free vibration Practicals (1) Balancing of rotating masses - 02
6. IMPLEMENTION STRATEGY (PLANNING):
1.0 Teaching Plan 2.0 Models 3.0 Charts
7. REFERENCE BOOKS:
Sr. No. Author Title Edition
Year of Publication
Publishers & Address
1.
Khurmi & Gupta
Theory Of Machine
5th 1995 Eurasia pub house
pvt ltd
189
2 Rattan S.S Theory of Machine
1st 1993 Tata McGraw Hill
3. Ballaney
P.L Theory of Machine
5th 1987 Khanna Publication
New Delhi
4.
H.M Shah & H.M
Nadkarni
Theory Of Machine
2nd 1982 Dhanpatrai & Sons
New Delhi
5. Ghosh & Mallick
Design of Machine Elements
& Mechanisms 1st 2002
East West Pub New Delhi
6. Bevan Theory Of machine
1st 1984 CBC Pub
New Delhi
.
190
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE: PLASTICS ENGG. FULL TIME w.e.f. batch admitted June, 2008 (Progressively)
SEMESTER: SEVENTH TEACHING & EXAMINATION SCHEMES Effective from the Academic Term
July/November,2008
Sr
No
Subject Subject Code
Scheme of Instructions and Periods per week
No.of papers,
duration and marks
Scheme of Examination Gr Scheme L/P/Cr
L P D T Cr NP Hrs Mks SSL Paper
T/W PR OR Total
1 #Plastics Plants Equipments-II
PE-77 2 2 - - 4 1 3 100 20 80 25 - - 125 A* 224
2 #Processing of Plastics-II PE-70 3 2 - - 5 1 3 100 20 80 25 - 25 150 A* 325
3 # Plastics Prod Design & Testing
PE-71 3 2 - - 5 1 3 100 20 80 25 25 - 150 A* 325
4 Adv in Mould Design .& Mfg
PE-72 2 - 2 - 4 1 4 100 20 80 50 - 50 200 A 224
5 # Project PE-78 - 4 - - 4 - - - - - 50 - 50 100 A* 044
6 #Prod.Mgt &Entrepreneurship
ME-56 3 2 - - 5 1 3 100 20 80 25 - 25 150 M*
325
7 Maintenance of Plastic Machines
PE-49 3 2 - - 5 1 3 100 20 80 50 50 - 200 A 325
8 Environmental. Science & Plastics Waste Disposal Mgnt.
PE-75 3 2 - - 5 1 3 100 20 80 50 - 50 200 M 325
9 CAD, CAM & CIM CA-73 2 3 - - 5 1 3 100 20 80 50 50 - 200 A 235
TOTAL 21 19 2 1 42 06 PAPERS 160
640 350
125
200
1475
TOTAL PERIODS = 42 TOTAL MARKS = 1475
* Compulsory
L- Lecture Period SSL- Sessional P- Practical Period T/W- Term Work
(1) Unless stated, T.W. will be assessed by the Internal examiner D- Drawing Practice Period Pract- Practical
191
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering Semester : VII
Subject : (# )Plastics Plant Equipment-II Duration: 16weeks
CODE: PE - 77
Group : A* Compulsory
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits
Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs. per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
02 -- 02 04 03 01 100 80 20 25 - 125
3. RATIONALE:
There are various techniques of processing of plastics. Every process required different accessories with the extruder. Hence the student should be able to study the various specifications, constructions and mode of working of these accessories by selecting the proper extruder profile and various plants.
4. OBJECTIVES:
1 To know different types of extruders and accessories required with the extruder (Plantwise). 2. Injection I blow moulding machine parts, drives and accessories. 3. To study different types of calendars, constructional design and features.
192
5. DETAILED CONTENTS:
Chapter Content Marks Hrs
SECTION-1
1 1.0 Equipments for extrusion: 64 14 1.1 Extruder & hopper, feeding mechanism, screw and barrel design thrust 4 bearing gate assembly (Screen pack, breaker plate and valves) 1.2 Extruder drives & types and selection, extruder output I .3 Extruder types & single screw, twin screw and planetary extruders their constructional features and applications. 1.4 Vented extruder 1.5 Mixing screws 1.6 Ram extruder & constructional features 1.1 Extrusion plants 1.7.1 Pipe plants (plane and corrugated pipe) 1 .7.2 Blown film plants (monolayer and multiplayer films, stretch film tapes and heat shrink films) 1.7.3 Orientation lines & (Monofilament, boxstrapping, BOPET and OPP 2. films) 1.7.4 Cast film lines 1.7.5 Cable and wire covering plants (inclusive of XLPE) 1.7.6 Extrusion coating and laminating lines 1.7.7 Sheeting plant (Monolayer and rnultilayer) 1.7.8 Section lines (Profiles)
1 .7.9 Aspects to be covered arc plant layouts, ancillary in line equipments for sizing, take off, cut and plant safety Practice 1. Extruders. 2. Extruder plants and accessories used in extrusion.
2. 2.0 Equipment for calendaring: 16 04 2. 1 Calendaring plants and plant layout 2.2 Types of calendars 2.3 Calendar rolls & constructional and design features, cast and drilled rolls, 2.4 Calendar drives & roll mounting, bearing and lubrication 2.5 Heating and cooling systems 2.6 Safety devices
193
Practice 1. Visit to calendaring and laminating plant.
SECTION – II
3.0 Equipments for blow moulding: 60 10 3.1 Exttusion blow moulding machines 3.2 injection blow moulding machines 3.3 Stretch blow moulding machines 3.4 Co-extrusion blow moulding 3.5 Drive details for intermittent blow moulding 3.6 Parison wall thickness control & accumulator units 3.7 Parison cutting devices 3.8 Hydraulic, pneumatic, electrical and electronic controls (Appraisal only) 3.9 Safety devices
1. Blow moulding plants 2. Hydraulic and pneumatic controls pertaining to blow moulding equipments.
4. 4.0 Equipments of thermoforining: 20 04 4. 1 Single stage sheet feed mechanism 4.2 Multi-stage sheet feed mechanism 4.3 Continuous sheet forming lines 4.4 Elementary ideas about automation Practice 1. Equipments for thermoforming 2. Simulated faults analysis
6. IMPLEMENTION STRATEGY (PLANNING):
Wherever practicals in institute is not possible visits are carried out to necessary industries. Lesson Plan Teaching Plan
194
7.REFERENCE BOOKS:
Sr. No. Author Title Edition
Year of Publication
Publishers & Address
1. Manuals of different machine
manufacturing companies
2. Rosatto Injection Blow moulding 1st 1987 C.B.S.
Publishers, Delhi
3. R.A. Edlin, &
A.D. Swan Calendaring of Plastics 1st 1971
Eliffe Books Butter Worth
Group, London
4. Sidney Levy
James F. Carley
. Plastic Extrusion Technology
Handbook 2nd 1989
Industrial Press me. New York
5. Rosatto Blow Moulding Handbook 1st 1989 Henser New York
6. Friedhelm Hensen
Plastics Extrusion Technology 1st 1988 Henser New York
7. Allan L. Griff Plastics Extrusion Technology 2nd 1976 Robert E. Krigero
New York
8. JamesL. Throne Techno]ogy of Thermoforming 1st 1996 Carl. Hanser
Verlag. New York
195
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering Semester: VII
Subject :- (#) Processing of Plastics - II Duration : 16 weeks
Group : A* Code: PE - 70
Compulsory
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits
Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs. per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
03 -- 02 05 03 01 100 80 20 25 25 150
3. RATIONALE:
1 To study and to manufacture articles made by extrusion. 2. To study and to manufacture articles made by blow moulding. 3. To study and to manufacture disposible articled made by thermoforming. 4. To study different types of decoration on plastics.
4. OBJECTIVES:
The students will
1 Manufacture a pipe and a film by extrusion. 2 Manufacture P.V.C. compound.
196
3 Manufacture bottles for drinking. 4 Manufacture disposable articles by thermoforming. 5 Print different printing techniques.
5. DETAILED CONTENTS:
Chapter Content Marks Hrs
SECTION-1
1 1.0 Extrusion: 60 16 1.1 Basic process & materials and applications 1 .2 Compounding and in corporation of additives 1.3 Extrusion processes: 1.3.1 Pipe extrusion (plain, corrugated and reinforced pipes) 1 .3.2 Blown film extrusion (monolayer and multilayer films, stretch film tapes, 1.3.3 Monofilament / Box strapping 1.3.4 Cable extrusion
1.3.5 Sheet extrusion 1.3.6 Cast film extrusion 1.3.7 BOPP and OPP films 1 .3.8 Powder coating 1.3.9 Plastisol coating 1 .3. 10 Laminating & extrusion laminating on paper, aluminum foil etc and adhesive lamination
1.3.11 Profile extrusion 1.4 Ram extrusion The basic aspects to he covered are typical extrusioi conditions for special materials, sizing techniques, various process parameters affecting product quality. Start-up and shutdown procedures and trouble shooting. Practice: 1. Study & trial on extrusion.
197
2 2.0 Calendaring: 20 06 2.1 Basic process, materials and applications 2.2 Processing conditions at various stages of production 2.3 Process parameter and their effect on product quality 2.4 Lamihating and embossing 2.5 Troubleshooting — defects, causes and remedies Practice 1. Visit to calendaring plant.
SECTION – II 3. 3.0 Blow Moulding: 20 06 3.1 Basic process, materials and applications 3.2 Types & injection, extrusion and stretch blow moulding 3.3 Continuous and interrupted process 3.4 Process parameters and their effects on product quality 3.5 Finishing operations for blow moulding operations 3.6 Troubleshooting — defects, causes and remedies Practice: 1. Study and trial on blow moulding. 4.
4.0 Thermoforming: 20 08 4.1 Basic process, materials and applications 4.2 Plastic memory, hot elongation, hot strength temperature 4.3 Methods of thermoforming & plug assist forming, drape forming,
reverse draw forming and vacuum forming. 4.4 Twin sheet forming 4.5 Various process parameters and their effect on product quality 4.6 Advantages and limitation of thermoforming 4.7 Trouble shooting Practice: 1. Study and trial on thermoforming.
198
5 5.0 Fabrication with plastics: 10 04 5.1 Cementing and adhesive bonding 5.2 Welding process 5.3 Fabrication technique for chemical vessels, tanks, pipe bends,
sheets etc. with special reference to PVC, PP; HDPE,
Acrylics and FRP Practice:
1. Visit to industry.
6 6.0 Finishing and machining plastics: 10 04 6. 1 Finishing, filing, grinding, buffing, drilling, turning, slitting, fastening etc. 6.2 Effects of the above process on Elasticity, Plastic memory, Conductivity and softening point Practice: 1. Visit to industry
7 7.0 Decorating with plastics: 20 04 7.1 Printing 7.2 Painting - .
7.3 Hot stamping 7.4 Foil inlays moulding 7.5 Vacuum metallising 7.6 Electroplating 7.7 Dip coating Practice 1. Visit to industry.
6. IMPLEMENTION STRATEGY (PLANNING):
Wherever practicals in institute is not possible visits are carried out to necessary industries. Lesson Plan Teaching Plan
199
7. REFERENCE BOOKS:
Sr. No. Author Title Edition
Year of Publication
Publishers & Address
1. Rosato Extrusion Techniques 2nd 1998 Hanser New York
2. Fishcher
Extrusion of Plastics 3rd 1976
Newmens Butter Worths & Hobart
London
3.
Machine Manuals from Different Components
4
SPI handbook .
3rd 1980 Vanosarand Publication
5. Encyclopedia of
P.V.C. 5th 1976 Marcell Dekker, London
6. Frados Plastic Processing Handbook
200
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering Semester : VII
Subject : (#) Plastics Product Design And Testing Duration: 16weeks
CODE: PE – 71
Group : A* Compulsory
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits
Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs. per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
03 -- 02 05 03 01 100 80 20 25 25 150
3. RATIONALE:
1. To study mechanical, electrical, thermal and flow properties of plastics.
2. To study optical properties, density and specific gravity.
3. To study designing for inspection for moulded and extruded articles.
4. OBJECTIVES:
The students will 1. Perform tests on machines like izod impact, tensile, melt flow index, dart, coeffiecient of friction, abrasion and cross breaking. 2. Find filler content, water absorption and moisture content, specific gravity and density.
201
3. Study the changes in extrusion and blow moulded products.
5. DETAILED CONTENTS:
Chapter Content Marks Hrs
SECTION-1
04 03
1 1.0 Testing 1.1 Importance of testing 1 .2 Specifications and standards 1.3 Sample preparation and conditioning of samples 1.4 Manufacturing tests 1 .5 Quality control tests 1.6 Comparisons of manufacturing and quality control tests.
2. 2.0 Mechanical tests: 20 12 2.1 Tensile properties and test method 2.2 Flexural properties and test method 2.3 Creep property and creep test 2.4 Fatigue test 2.5 Izod impact, charpy impact and tensile impact tests 2.6 Testing of plastics films & dart impact 2.7 Testing of plastic sheets & falling weight method 2.8 Hardness test — shore hardness and Rockwell hardness 2.9 Abrasion resistance
3. 3.0 Electrical tests: 15 04 3.1 Insulation resistance 3.2 Volume resistivity 3.3 Surface resistivity 3.4 Breakdown voltage 3.5 Dielectric strengh & dielectric constant and power factor 3.6 Electrostatic properties & elementary ideas only.
4. 4.0 Thermal tests: 10 02 4. 1 Thermal conductivity & interpretation only 4.2 Co-efficient of thermal expansion / contraction 4.3 Specific heat and latent heat 4.4 Vicat softening point
202
4.5 Heat distortion temperature 4.6 Flammability test 4.7 Cold flex temperature & interpretation only
5. 5.0 Flow properties: 08 02 5.1 Melt flow index & for thermoplastics 5.2 Cup method & for thermosets 5.3 Viscoelastic properties of plastic & elementary ideas about melt rheology.
6. 6.0 Optical properties: 08 04 6. 1 Fefractive index 6.2 Percentage gloss 6.3 Clarity
7 7.0 General properties : 15 06 7.1 Specific gravity 7.2 Bulk density & bulk factor 7.3 Environmental stress cracking 7.4 Weathering properties 7.5 Toxicity 7.6 Chemical resistance Practice Shall consist of a journal based on the laboratory experiments carried out from the following : (at least 10 experiments). 1. Tensile strength 2. Flexural strength 3. Cross breaking strength 4. Izod impact strength
5. Hardness 6. Vicat softening point 7. Heat distortion temperature 8. Melt flow index 9. Abrasion resistance 10. Adhesion strength 11. Flammability test 12. Breakdown voltage 13. Surface resistivity / volume resistivity 14. Specific gravity 15. Ash content I moisture content 16. Testing of product like pipes, tubes, films, sheets, containers etc
203
SECTION II
8.0 Design of product: 40 08 8.1 Technical requirements — Shelf life 8.2 Cost economics — Elementary ideas 8.3 Selection of material 8.4 Comparison in respect of technical requirements 8.5 Elementary ideas about modular experiments and design modification. 9 9.0 Design consideration for injection moulded, blow moulded and 40 08 extruded articles for most commonly used plastics like HDPE, PS, PVC, LDPE, PP, ABS etc
6. IMPLEMENTION STRATEGY (PLANNING):
1. Equal weightage must be given to testing and product design topics. More stress to be given for the test procedures and specifications and only very elementary treatment need be done regarding significance and designing for tests. Practical Examination : Shall consist of testing of plastics listed above along with an oral. 2. Lesson plan 3. Teaching Plan
7. REFERENCE BOOKS:
Sr. No. Author Title Edition Year of
Publication Publishers & Address
1. IS standard booklets
2.
ASTM standards for plastics .
11th
1959 American Society for testing material Philadelphia
3. .
A.S. Athalye .
Testing of plastic materials
1st 1992 Multi Toush India, Ghatkopar
4 Joseph B. Dym
Product design with plastics
5. Miller Plastic product design handbook
204
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering Semester : VII
Subject:Advanced in Mould Design & Manufacturing Duration: 16weeks
CODE: PE – 72
Group : A Compulsory
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits
Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Drawing Hrs. per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
02 -- 02 04 04 01 100 80 20 50 50 200
3. RATIONALE:
The. finish of the article largely depends upon the mould manufactured , material used and other factors. During the manufacture of the mould many a time the material requires different types of heat treatment. Mould assembly is also required to be carried out carefully. This requires a complete know how of all the practices in detail the knowledge of which is provided in this subject.
4. OBJECTIVES:
The student will be in position to proper raw material from the available materials. 2. The students will be in a position to identify correct manufacturing process for economical production of the mould. 3 Students will be in a position to understand the importance of finishing operations and mould assembly techniques.
205
5. DETAILED CONTENTS:
Chapter Content Marks Hrs
SECTION-1
12 04
1 1.0 Design aspect of mould manufacturing: 1.0 Operations to be performed on mould elements 1.1 Different mould manufacturing techniques 1.2 Accuracy in various machining operations 1 .3 Effect of limits & fits on mould.elements 1.4 Economic considerations 1.5 Selection of suitable manufacturing techniques & machine tools.
2. 2.0 Selection of raw materiaJs . 12 04 2.1 Essential properties of mould steel 2.2 Properties of ferrous & non-ferrous materials like plate steel, tool steel, stainless steel, beiyllium copper etc. 2.3 Criteria for selection of materials
3. 3.0 Software packages: 20 06 3.1 Advantages & limitations of software packages CAD CAM,. CAE . 3.2 Selection of components that can be manufactured with the help of such packages
3.3 Parameters required for developing a package 3.4 Introduction of commonly available packages.
4. 4.0 Conventional & modern machining processes: 36 10 4.1 Revision of machining processes like grinding, milling, honing, drilling 4.2 Modern machining prOcess 4.2.1 Principle of process 4.2.2 Tools, machinery, chemicals etc. required 4.2.3 Accuracy & finish available
206
4.2.4 Application of process 4.3 Process like spark erosion. E.D.M.. etc
.
SECTION II
5. 5.0 .Heat treatment; 36 10 5.1 Requirement of heat treatment 5.2 Principle of heat treatment 5.3 Object, processes used for case-hardening carburising, stress relieving 5.4 Heat treatment equipment like foundry etc., temperature & control 5.5 Difficulties occurring during heat treatment & remedies for the same
6. 6.0 Polishing &finisliing: 20 08 6.1 Polishing & finishing 6.2 Tools, materials & equipments used for same 6.3 Grade of polishing & finishing 6.4 Processes like diamond polishing, chrome polishing.
7. 7.0 Mould assembly: 14 04 7.1 Inspection of all tool elements 7.2 Fitting, scraping, grinding, polishing 7.3 Assembly, tool touching 7.4 Check list
8. 8.0 Mould trials & rectification 10 02
6. IMPLEMENTION STRATEGY (PLANNING):
Students will be aware of quality of mould and latest techniques used in fabrication of a mould. Visits to the industries are to be arranged to supplement the theoretical knowledge
7. REFERENCE BOOKS:
207
Sr. No. Author Title
Edition
Year of Publication
Publishers & Address
1. S.K.Hajara Choudhary
Workshop . Technology Vol-TI
9th 1997 Media promoters and Publishers Ltd., New Delhi
2. .B.S. Raghuvanshi . .
Workshop . Technology Vol-TI
9th
1997 Dhanapat Rai & Sons, New Delhi
3. .
WAJ. Chapman
Workshop Teèhnology Vol-I, II, III
4th 1998 Edword Arnold Publishers Ltd. 338, Euston Road Lend, U. K.
4 Dr.O.P. Khanna . .
-Material Science & Metallurgy
3rd 2001 Dhanapat Rai & Sons, New Delhi
.
.
208
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering Semester : VII
Duration16weeks
Subject : - (#)Project CODE : PE- 78
Group : A* Compulsory
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits
Examination Scheme and Maximum Marks
Paper
Theory Hrs. per
week
Tutorial
Hrs per week
Practical Hrs. per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
- -- 04 04 - - - - - 50 50 100
3. RATIONALE:
After inplant training it is expected. The students to carry out certain project of their choice for which generally they are made to work in a group of certain . To make students conversant with the new departments in different fields in the industry. So that while earring out projects. They can take help from different industries.
4. OBJECTIVES:
The students will be required to select a topic approved for the project work related the syllabus for the subjects prescribed for the entire course and submit a report on the work done and results obtained. The students will have to work under the guidance of a teaching staff member in a group (consisting of not more than six students). The project topic selected cover any one of the areas listed below: l. Mould design and fabrication.
209
2. Processing of plastics materials. 3. Equipments required for plastics. 4. Testing of plastics.
5. IMPLEMENTION STRATEGY (PLANNING):
a. Students are expected to submit the project either in desertion form or actual existing model as per the project assigned to them. b. Term Work Marks on the basis of submitted project. c. Oral to be conducted on the basis of project
.
210
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering Semester : VII
Subject : (#) Production Management Duration: 16weeks
CODE : ME- 56
Group : M * Compulsory
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits
Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs. per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
03 -- 02 05 03 01 100 80 20 25 25 150
3. RATIONALE:
Production facilities and planning and control of production from the knowledge of this subject. The role is to accomplish the organization mission by using the manufacturing resources of the firm in the most efficient and effective way.
4. OBJECTIVES:
Students will be able to 1. Understand the concept of production system 2. Understand the material handling system and its applications 3. Understand the concept of inventory control system 4. Understand the project management techniques 5. Understand for concept of work study
211
5. DETAILED CONTENTS:
Chapter Content Marks Hrs
SECTION-1
1 1.0 Management and supervisor’s role in management: 20 06 1.1 Functions of management 1.2 Production system concept 1 .3 Various departments in the organization and their interrelationship 1.4 Place of supervisor in the organization and his role activities of a supervisor and his responsibilities 1.5 Selection, recruitment and training of persons Practice:
1) Assignment on production systems.
2. 2.0 Plant layout and materials handling: 45 12 2.1 Importance of layout - effects of layout on production management 2.2 Type of layout - product layout, process layout and static layout. Layout
visualizing techniques — two dimensional template technique and three
dimensional models technique. Comparison between product and process layout.
Principles of layout.
2.3 Importance of materials handling. Nature of materials handling. Material handling equipment in general — conveyors, fork lift truck, cranes etc. Factors deciding selection of material handling equipment. Principles of material handling Practice: 1. Assignment on plant lay out 2. Assignment on techniques of plant layout 3. Assignmeit on material handling system
3. 3.0 Types of production and production planning & control: 17 06 3.1 Types of production and their basic characteristics 3.2 Preplanning, planning and control phases of production
212
preplanning, planning and control cycle. Their description in short 3.3 Definition of sales forecasting, use of sales forecasting, methods (Techniques) of sales forecasting to be discussed in brief w.r.t. their relative merits and de-merits 3.4 Other preplanning activities. Planning of four Ms, (i.e. manpower, methods, materials, machine’s capacity), routing, estimating, scheduling, dispatching, follow up, inspecting, evaluating. Use of Gantt chart in scheduling Practice: 1. Assignment on production planning and control 2. Assignment on Gantt Chart
SECTION – II
4.0 Inventory control: 20 06 4.1 Importance of inventory control. Types of control — selective control i.e. A-B-C analysis, VED analysis etc (Concept and importance of A-B-C analysis to be discussed) 4.2 Concept of EOQ. Inventory models — with instantaneous replenishment (no shortage allowed) and with uniform rate of replenishment (no shortage allowed) 4.3 Methods of controlling stock levels — fixed order quantity system and fixed time system Practice: 1. Assignment on inventory control
5. 5.0 Project management techniques: 32 08 5.1 CPM and PERT — their use in planning, scheduling and controlling projects (Simple examples to be discussed) Practice: 1. Assignment on PERT and CPM
6. 6.0 Safety and pollution control: 05 02 6.1 Importance of safety and different methods of controlling pollution to be discussed in brief
7. 7.0 Brief introduction to work study: 25 08 7.1 Definition and objectives of work study 7.2 Eight-steps basic procedure of work study 7.3 Brief discussion of the steps in basic procedure of work study
213
7.4 Different techniques of work measurement (to be discussed in brief) 7.5 Use of work measurement technique Practice: 1. Assignment on method study 2. Assignment on work movement
6. IMPLEMENTION STRATEGY (PLANNING):
In depth study and understanding of the subject will be implemented by using 1. Lesson Plan 2. Use of Chart Models and Transparencies 3. Use of other teaching media such as case study, group discussion, etc
7. REFERENCE BOOKS:
Sr. No.
Author Title Edition Year of
Publication Publishers & Address
1. I.L.O. Work study Any
Edition 2000
Universal Pub.Co. 534, Kalbadevi Rd, Mumbai-
400 002
2. Ralph M.Barnes
Motion & time study design & measurement of Works
7th .
1980
John Wiley & Sons Inc.605, Third Avenue,
New York
3 Marvin
E.Mundel Motion & Time Study 6th 1988
Prentice Hall of India, Pvt. Ltd. New Delhi
4. Mantand Telsang
Ind.Engg & Production Mgt. 2nd 2002 S. Chand & Co. Ram
Nagar, New Delhi
214
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering Semester : VII
Subject : Maintenance of Plastic Machines Duration: 16weeks
Code: PE – 49
Group : A Optional
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme
Credits
Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs. per week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
03 -- 02 05 03 01 100 80 20 50 50 200
3. RATIONALE:
Plastic processing machines use electrical powers to convert plastic granules into viscous meet in addition it requires electric power to drive the machine mechanical mechanism for transferring motion and electronic / hydraulic controls. As a result of this maintenance is required to be carried out very frequently on these machines.
4. OBJECTIVES:
The students will be able to identify different defects such as Electrical, Hydraulic, Pneumatic circuits.
215
5. DETAILED CONTENTS:
Chapter Content Marks Hrs
SECTION-1
1 1.0 Types of maintenance, routine, preventive, breakdown & their 32 08 significance for all plastic processing machines
2 2.0 Routine maintenance 24 08 2.1 Oiling, lubricants, lubrication system, cleaning, calibration
3 3.0 Preventive maintenance: 24 08 3.1 Its importance, repair cycle, systematic recording p.m. scheduling, types of schedules
3.2 Manpower of machine planning economy with p.m. case studies safety aspects, spare part inventories, equipments required. Expected life of values, heaters, a ring seals
4. 4.1 Breakdown maintenance of major equipments, pumps, 44 14
compressors, valve. 4.2 Attending joints, valves, pumps & other equipments, leakages, electrical, hydraulic, pneumatic circuits
. 36 12
5 5.1 Organizations of maintenance department, control & co-ordination of various depts., related functions such as stores, equipments record, maintenance and repair records.
6. IMPLEMENTATION STRATEGY (PLANNING):
216
Practical Examination : Shall consist of an oral based on theory.
7. REFERENCE BOOKS:
Sr. No
Author Title Edition Year of Publication Publishers & Address
1. Service Manuals Provided
By Machine Manufacturers
217
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
1. SUBJECT DETAILS:
Course : Plastics Engineering Semester : VII
Subject : Environmental Science & Plastics waste disposal Mgnt Duration: 16weeks
CODE: PE – 75
Group : M Optional
2. TEACHING AND EXAMINATION SCHEME:
Teaching Scheme Credits Examination Scheme and Maximum Marks
Paper
Theory Hrs. per week
Tutorial
Hrs per week
Practical Hrs. per
week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
03 -- 02 05 03 01 100 80 20 50 50 200
3. RATIONAL:
The effects of green house, global warming and modern-luxurious lifestyle of human being indicates the need of safe environment and the general awareness of plastics waste management.
4.OBJECTIVES:
The student will be able to learn & understand:
1. The sources of Plastics waste. 2. The plastics waste management in India & in World. 3. Bio-degradability of Plastics.
218
4. Deep knowledge of Recycling of Plastics. 5. General awareness of environmental pollution & eco-system.
5. DETAILED CONTENT:
SECTION-1
Chapter Content Marks Hrs
1. Introduction- Multidisciplaining nature of environmental studies, 08 02 definition, scope & importance, need for public awareness.
2. Ecosystem- Basic concepts, structure & function of an ecosystem, 08 02 energy flow in the ecosystem. Producers, consumers & decomposers.
3. Environmental Pollution- Causes, effects quality control measure of 12 03 various modes of pollution like Air pollution, Water pollution,
Soil pollution, Noise pollution, Thermal pollution, etc.
4. Social issues & Environment- Environmental ethics & issues 12 04 consumerism and waste products. Awareness of various acts for
environmental protection, pollution, etc.
5. Importance of Plastics in modern society- Health care, economic development, social progress, auto-motive industry, transportation, 12 04
building and construction, insulation & energy conservation, packaging
of food products & national security, nano technology, disaster management.
219
6. Polymer Waste- Types, flow diagrams, segregation, integral waste 20 09 management, traditional path way & new technique of plastics
waste management technique of waste management, global concerns
& challenges.
Total 82 24
SECTION-II
7. Polymer Degradation-
Biodegradability myths & realities, aspects of biodegradability, 02 01 7.2 Definition like degradable plastics, Biodegradable plastics, photo
degradable plastics, Thermal degradable plastics, compositing plastics, 12 03
7.3 Degradability & its mechanism, types & concepts, Additives for plastics to promote degradation. 16 06
7.4 Biodegradable polymers- types & applications, (Thermal
degradability & its mechanism) 12 04
7.5 International standard for Biodegradability 05 01
8 Recycling Of Polymers- 8.1 Plastics recycling technique, Indian plastics recycling industry scenario, 10 02
8.2 Steps that plastics good undergoes during the process of mechanical
recycling, 10 02
8.3 Uses of recycle plastics 05 01
8.4 Equipment & processing. 10 04
Total 82 24
220
Practice:
Shall consist of a journal base on study / demonstrations and visits.
Practical Examination: Shall consists of an oral based on the term work
1) Visit to various plastics recycling plants
2) Visit to ICPE
3) Collection of chart models etc.
4) Collection of various used plastics samples
5) Collection of plastics related environmental issues
6) Expectation from society & industry (by doing survey).
6. IMPLEMENTION STRATEGY (PLANNING):
1 Classroom teaching : Review : Related topics from previously taught subjects. Use of multimedia, Charts, models, transparencies, learning materials.
2 Library : Referring to books, journals, manuals.
3 Exercise :Collection of specifications of various Plastics waste materials, products, specifications, Handling methods, storage.
4 Industry : Plastic recycling industries, Study of various Recycling processes.
7. REFERENCE BOOKS:
Sr. No
Author Title Edition Year of Publication
Publishers & Address
1. D. L. Kaplan Biopolymers from Renewable Sources
1998 Springer verlag
2. Dinesh mohan, Ashok mishra
Safety with Plastics
2000
221
3. Boustead, I & Hancock, G. F
A report for INCPEN
1989 The open University, UK
4. Antonin SLEJSKA Biodegradability plastics
1997
5. ICPE A proposal for Up- gradation of Plastic recycling industries
2001 ICPE
222
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
(w.e.f-batch admitted June,2008 (progressively)
1. SUBJECT DETAILS (June-Nov,2011)
Course : Plastics Engineering Semester : VII
Subject: CAD, CAM, & CIM Duration: 16weeks
CODE: CA – 73
Group : A Optional
2.Teaching and Examination Scheme
Teaching Scheme Credits Examination Scheme and Maximum Marks
Paper
Theory Hrs. per
week
Tutorial
Hrs per week
Practical Hrs. per
week
Hrs.
Np Mks
TH
Sessional
T/W
Pract/Oral
Total
03 -- 02 05 03 01 100 80 20 50 50 200
3. RATIONALE :
A student having knowledge of WINDOWS 98 / 2000 / XP / VISTA plus have a basic understanding of computer operation and fundamental drafting skill is expected to produce technical drawing using graphic tools.
4. OBJECTIVES :
1. Learn about graphic hardware. 2. Draw object using AUTOCAD. 3. Learn the interfacing of CAD, CAM & CIM. 4. Develop the skill in AUTO LISP programming.
223
5. DETAILED CONTENTS :
SECTION-I
Chapter Content Marks Hours
1. 1.0 Overview and graphics hardware :
1.1 L/P options, mice/mouse. Digitisers, trackball, joystick
display options.
1.2 O/P options, printers and plotters.
08
08
02
01
2. 2.0 Fundamentals of Auto CAD
2.1 Familiarisation of commands of drawing editor.
2.2 use of cursor
2.3 selection of menus.
Practice: 1. OSHAP : Held, Centre, Endpoint, insert, intersect,
MID point, NEA rest, HOPe, PER pendicular
Tangent, CANCEL, REDO, Redraw
14
14
14
04
04
04
3. 3.0 Creating a drawing, setting up work areas
3.1 Creating symbols.
3.2 organizing information with layers.
Practice:
1. SETUP : Defining drawing scale.
2. BLOCKS : Attdef, Base,Block, Insert, MINSERT, Wblock
3. DISPLAY : Attdisp, Dview, pan, plan, Redraw,
Redrawall, Regen, Regenall, Regena uto, View, Viewers, V point, Zoom.
4. EDIT : Array, Attedit, Break, Chamber, Change, Chaprop,
Copy, Divide, Erase, Explode, Extend, Fillet, Measure,
Mirror, Move, Pedit, Rotate, Select, Scale, Stretch, Trim.
08
05
03
02
224
5. INQUIRY : Area, Dist, Help, Id, List, Status, Time.
6. LAYER : a) SETTINGS : Aperture, Axis, Blips, Colour,
Dragmode, Elev, Grid, Linetype, Limits, Ltscale, Otext,
Snap, Style, Vports.
4. 4.0 Hard copy of drawing on printer and / or plotter
Practice : 1. PLOT : Plotter Printer
11 04
Total 82 24
SECTION-II
5. 5.0 Labelling and dimensioning of drawing
Practice: 1.DIM : Dim, Diml, Linear, angular, diameter, radius,
center, leader, Di, vars, redraw, status, undo.
07 03
6. 6.0 Tracing a drawing using tables
6.1 Drawing curves and solid areas.
Practice: 1. DRAW : Arc, Attdf, Circle, Domit, Dtext, Ellipse,
Hatch, Insert, Line, MINSERT, Offset, File
polygon, shape, sketch, solid, Text, Bdline, Bdface.
12 04
7. 7.0 Introduction CAD/CAM/CIM – need for CAD/CAM/CIM
7.1 Hardware requirement for cad system software requirements.
7.2 Computer application in engineering, basic concepts of automation & robotics, elimentry idea of computer intigreted production management system used for quality inspection/ quality monitoring, planning functions, resource planning etc.
20 06
8. 8.0 Graphic packages CAD, interfacing
8.1 Programs to link the analytical package of graphic utilities.
Practice: 1.UTILITY: ATTEX, Files, Rename, Script,Menu,
11 03
225
Purge Script, SLIDES. (Mslide, Vslide) External
commands(i.e.DEL,EDIT,SHELL,TYPE) End, Quit.
2. 3D :Edgesurf, Revsurf, Rulesurf, 3Dline,3D face, 3D
mesh, 3D poly, 3D objects.
9. 9.0 Auto Lisp programming and customisation
Practice:1. AUTOLISP:Create*LSP file for formulas and
application prog,
2. Customisation : Create Menus & Macros using
*MNU files.
32 08
Total 82 24
6. IMPLEMENTATION STRATEGY (Planning)
The theory / Practicals will be based on the latest available AutoCAD package in the department. The fundamentals will be covered referring the installed version of Software utility.
i) Teaching Plan
ii) Lesson Plan
iii) Assignments
7. REFERENCE BOOKS :
Sr. No.
Author Title Edition Year of Publication
Publishers & address
1. D.Raker, and H.Rice Inside AUTOCAD
2. G.B. Prabhat.
An Introduction to CAD/CAM
3. Y.I.Shah &
C. Patel
Programming in AUTOLISP
4. George Omura Mastering AUTOCAD B.P.B. Publication, New Delhi
226
5. M.M.Das. Learning CAD with Auto CAD operating system
6. Rajeev Sangal Mc Graw Hill.
LISP programming Tata Mc Graw Hill.
7. Robert M.Thomas Advanced Technique in AUTOCAD
BPB publication.
8. A.Ted Schaefer and James L.Brittain
The AUTOCAD productivity book
Galgotia Publications.
9. M. P. Groover Automotive Production System & CIM
10. P. Radhakrishnan & Subhramanyam
CAD / CAM / CIM
227
Shri Vile Parle Kelavani Mandal`s
SHRI BHAGUBHAI MAFATLAL POLYTECHNIC
DISCIPLINE : PLASTICS ENGINEERING FULL TIME w.e.f. batch admitted June,2008 (Progressively)
INPLANT TRAINING EXAMINATION SCHEMES Effective from the Academic Term July/November,2008
VIII SEMESTER
Sr
No
Subject
Duration
Credit Weekly
Report
Quiz Test
Marks
Dissertation
(Report)
Oral/
Viva
Total
8.1 26 Weeks 15 Maximum Marks 50 50 50 50 200
Minimum Marks 20 20 20 20 80
• Maximum 100 marks of Inplant Training will be considered for Award of Diploma.
• The Examination shall be conducted for 200 marks and same marks will be converted
in to 100 by the Examination Section.