faculty of metallurgy and materials science...

F A C U L T Y O F M E T A L L U R G Y A N D M A T E R I A L S S C I E N C E

S P E C I A L T I E S :

ENERGY AND ECOLOGY EFFICIENCY IN METALLURGY

METALLURGY OF FERROUS METALS

METALLURGICAL NON-FERROUS METALS AND ALLOYS

METAL CASTING

PHYSICAL METALLURGY

MECHANICAL METALLURGY

SYSTEMS AND EQUIPMENT FOR ENVIRONMENTAL PROTECTION IN METALLURGY

METROLOGY

METALLIC MATERIALS

MATERIALS SCIENCE AND ENGINEERING (taught in English language)

NANOTECHNOLOGY AND NANOMATERIALS

POLYMER MATERIALS

SEMICONDUCTOR MATERIALS AND TECHNOLOGIES

SILICATE MATERIALS

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FACULTY OF METALLURGY AND MATERIALS SCIENCE

Specialty:ENERGY AND ECOLOGY EFFICIENCY IN METALLURGY

Professional qualification: Engineer-Metallurgist, Engineer (According to the Bachelor Degree)

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One fundamental subject:m326− Physics of Metals І E 40 20 0 60 2,4 2,6 І E 20 10 0 30 1,2 3,8 5

Courses for different bachelor-degree background:b449− Furnaces and Technological Aggregates I І E 30 15 0 45 1,5 1,5 І E 15 8 0 23 0,9 2,1 3

b238− Furnaces and Technological Aggregates II І E 30 15 0 45 1,5 1,5 І E 15 8 0 23 0,9 2,1 3

m179 Modeling of High Temperature Processes and Equipment І E 60 40 0 100 3,5 3,5 І E 30 20 0 50 2,0 5,0 7

Options: one of the specialized subjects must be chosenm390 - Flash Technological Processes І E 60 40 0 100 3,5 3,5 ІІ E 30 20 0 50 2,0 5,0 7

m452 - Industrial Cleaning Systems І E 60 40 0 100 3,5 3,5 ІІ E 30 20 0 50 2,0 5,0 7

m224 - Basics of Material Flows Utilization Processes І E 60 40 0 100 3,5 3,5 ІІ E 30 20 0 50 2,0 5,0 7

m127 Metallurgical Furnaces and Equipment – Project I І Pr 0 15 0 15 0,6 3,4 І Pr 0 8 0 8 0,4 3,6 4

Hours per semester 275(365)

23(29)

m073 Energy Efficiency in Metallurgy ІІ E 40 20 0 60 2,4 4,6 ІІ E 20 10 0 30 1,2 5,8 7

m063 Environmental Ensuring of Metallurgical Enterprises ІІ E 40 20 0 60 2,4 4,6 ІІI E 20 10 0 30 1,2 5,8 7

m136 Research Project ІІ Pr 0 90 0 90 3,0 3,0 ІІI Pr 0 45 0 45 1,8 4,2 6

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19

m128 Metallurgical Furnaces and Equipment – Project I ІI Pr 0 15 0 15 0,6 3,4 ІII Pr 0 8 0 8 0,4 3,6 4

Hours per semester 225 24

Pre-graduation practice (full-time studies/part-time studies) –4 weeks/ 2 weeks

Pr Pr 8

Diploma Thesis – 20 weeks ІII DT ІV DT 15

Specialty: METALLURGY OF FERROUS METALS


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One fundamental subjectm326 Physics of Metals І E 40 20 0 60 2,4 2,6 І E 20 10 0 30 1,2 3,8 5

Courses for different bachelor-degree background:b217− Fundamentals of Extractive Metallurgy and Casting І E 30 15 0 45 1,5 1,5 І E 15 10 0 25 1,0 2,0 3

b444− Fundamentals of Physical Metallurgy I E 30 15 0 45 1,5 1,5 I E 15 10 0 25 1,0 2,0 3

m327 Theory of Sintering and Blast-Furnacing Processes І E 30 20 0 50 2,0 3,0 І E 15 10 0 25 1,0 4,0 5

m340 Theory of Steelmaking І E 30 20 0 50 2,0 3,0 ІI E 15 10 0 25 1,0 4,0 5

m339 Theory of Ore-thermal Processes I E 30 20 0 50 2,0 3,0 II E 15 10 0 25 1,0 4,0 5

m176 Mineralogy І C 20 20 0 40 1,6 2,4 І E 10 10 0 20 0,8 3,2 4


24(30)

m289 Special Steels and Irons ІІ E 40 20 0 60 2,4 3,6 ІІ E 20 10 0 30 1,2 4,8 6

m040 Gases and Non-Metal Inclusions in the Steel ІІ E 30 20 0 50 2,0 3,0 ІІI E 15 10 0 25 1,0 4,0 5

Options: one of the specialized subjects must be chosenm352 - Technological Calculations in Metallurgy ІІ E 20 30 0 50 2,0 4,0 ІІI E 10 15 0 25 1,0 5,0 6

m941 - Plasma and Electron-Beam Technologies in Metallurgy ІІ E 30 20 0 50 2,0 4,0 ІІI E 10 15 0 25 1,0 5,0 6

m894 - Blocks and Continuously Cast Billets Defects in the Steel ІІ E 30 20 0 50 2,0 4,0 ІІI E 10 15 0 25 1,0 5,0 6

m136 Research Project II Pr 0 90 0 90 3,0 3,0 III Pr 0 45 0 45 1,8 4,2 6

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19



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Specialty: METALLURGY OF NON-FERROUS METALS AND ALLOYS


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One fundamental subjectm326− Physics of Metals І E 40 20 0 60 2,4 2,6 І E 20 10 0 30 1,2 3,8 5

m176 Mineralogy І C 20 20 0 40 1,6 2,4 І C 10 10 0 20 0,8 3,2 4

m076 Corrosion and Metals Protection І E 40 20 0 60 2,0 2,0 І E 20 10 0 30 1,0 3,0 4

m313 Fundamentals of Autogenous and Autoclave Processes I – 15 10 0 25 1,0 2,0 II – 8 5 0 13 0,5 2,5 3

m133 Project of Heavy Non-Ferrous Metals І Pr 0 20 0 20 0,8 1,2 І Pr 0 10 0 10 0,4 1,6 2

Courses for different bachelor-degree background:

b314− Fundamentals of Extractive Metallurgy of Heavy Non-

Ferrous MetalsІ E 40 20 0 60 1,5 2,5 І E 20 10 0 30 1,2 2,8 4

b355− Technological Design for Non-Ferrous Metals Production І E 20 10 0 30 1,0 1,0 І E 10 5 0 15 0,5 1,5 2

Options: one of the specialized subjects must be chosenm389− Phase equilibrium in pyro- systems I E 30 15 0 45 1,8 3,2 II E 15 8 0 23 0,9 4,1 5

m825− Metallurgy of Gold and Silver I E 30 15 0 45 1,8 3,2 II E 15 8 0 23 0,9 4,1 5

m857− Recycling of Non-Ferrous Metals and Alloys I E 30 15 0 45 1,8 3,2 II E 15 8 0 23 0,9 4,1 5


23(29)

m469 Chemical Technologies in Non-Ferrous Metallurgy ІІ E 30 15 0 45 1,8 2,2 ІІ E 15 8 0 23 0,9 3,1 4

m305Structure, Properties and Heat Treatment of Non-Ferrous Metals

ІІ E 30 15 0 45 1,8 3,2 ІІ E 15 8 0 23 0,9 4,1 5

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19m273 Processes and Apparatuses in Non-Ferrous Metallurgy II E 30 15 0 45 1,8 3,2 III E 15 8 0 23 0,9 4,1 5

m313 Fundamentals of Autogenous and Autoclave Processes II E 30 25 0 55 2,0 2,0 III E 15 13 0 28 1,1 2,9 4




Pr Pr 8


Specialty: METAL CASTING


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Courses for different bachelor-degree background:b360− Technology of Molding Processes І C 25 20 0 45 1,5 1,5 І E 13 10 0 23 0,8 2,2 3

b361− Technology of Casting Alloys І C 25 20 0 45 1,5 1,5 І E 13 10 0 23 0,8 2,2 3

m176 Mineralogy І C 20 20 0 40 1,6 2,4 І E 10 10 0 20 0,8 3,2 4

m333 Theory of Casting Processes І E 50 30 0 80 4,0 4,0 І E 25 15 0 40 2,0 6,0 8

m344 Theory of Molding Processes І E 40 30 0 70 3,5 3,5 ІІ E 20 15 0 35 2,0 5,0 7


24(30)

m289 Special Steels and Irons ІІ E 40 20 0 60 3,0 3,0 ІІ E 20 10 0 30 1,5 4,5 6

m288 Special Non-Ferrous Metals Alloys ІІ E 40 20 0 60 3,0 3,0 ІІІ E 20 10 0 30 1,5 4,5 6

Options: one of the specialized subjects must be chosenm352 - Technological Calculation in Metallurgy ІІ E 20 30 0 50 2,5 2,5 ІІ E 10 15 0 25 1,3 2,7 5

m758 - Environmental Problems of The Casting Technology ІІ E 30 20 0 50 2,0 2,5 ІІI E 15 10 0 25 1,3 2,7 5

m761 - Heat Processes at Metal Cast Mold ІІ E 30 20 0 50 2,5 2,5 ІІ E 15 10 0 25 1,3 2,7 5

m136 Research Project ІІ Pr 0 80 0 80 3,0 3,0 ІІІ Pr 40 0 40 1,5 4,5 6


1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19Pre-graduation practice (full-time studies/part-time studies) –4 weeks/ 2 weeks

Pr Pr 8


Specialty: PHYSICAL METALLURGY


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Courses for different bachelor-degree background:b159− An Introduction to Physical Metallurgy І E 30 15 0 45 1,5 1,5 І E 15 8 0 23 1,2 1,8 3

b226− Heat Treatment Fundamentals І E 30 15 0 45 1,5 1,5 І E 15 8 0 23 1,2 1,8 3

Options: two of the specialized subjects must be chosenm388 - Phase Transformations in Metals and Alloys І E 40 30 0 70 2,8 4,2 І E 20 15 0 35 1,4 5,6 7

m219 - Principles of Alloying and Alloys Synthesis І E 40 30 0 70 2,8 4,2 ІІ E 20 15 0 35 1,4 5,6 7

m781 - Metallography І E 40 30 0 70 2,8 4,2 ІІ E 20 15 0 35 1,4 5,6 7

m767 - Technical and Quality Control of Metallurgical Production І E 40 30 0 70 2,8 4,2 ІІ E 20 15 0 35 1,4 5,6 7

m136 Research Project І – 0 50 0 50 1,0 1,0 І – 0 25 0 25 0,5 1,5 2

m126 Metallography Project І Pr 0 15 0 15 0,6 3,4 ІІ Pr 0 8 0 8 0,4 3,6 4


25(31)

m831 Heat Treatment of Special Steels and Alloys ІІ E 50 40 0 90 3,5 3,5 ІІ E 25 20 0 45 1,8 5,2 7

m306Structure, Properties and Heat Treatment of Non-Ferrous Alloys

ІІ E 50 40 0 90 3,5 3,5 ІІІ E 25 20 0 45 1,8 5,2 7

m136 Research Project ІІ – 0 40 0 40 2,0 2,0 ІІІ – 0 20 0 20 0,8 3,2 4

m134 Heat Treatment Project ІІ Pr 0 15 0 15 0,6 3,4 ІІІ Pr 0 8 0 8 0,4 3,6 4

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19



Pr Pr 8


Specialty: MECHANICAL METALLURGY


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Courses for different bachelor-degree background:b398− Physical Fundamentals of Metal Forming І E 30 15 0 45 1,5 1,5 І E 15 8 0 23 0,9 2,1 3

b353− Technological Fundamentals of Metal Forming І E 30 15 0 45 1,5 1,5 І E 15 8 0 23 0,9 2,1 3

m174 Microplasticity and Macroplasticity І E 45 30 0 75 3,0 4,0 І E 23 15 0 38 1,5 5,5 7

Structural Integrity. Strength and Quality Control І E 45 30 0 75 3,0 4,0 ІІ E 23 15 0 38 1,5 5,5 7

m136 Research project І - 0 25 0 25 1,0 2,0 І - 0 13 0 13 0,5 2,5 3

m262 Project on Metal Forming I Pr 0 15 0 15 0,6 1,4 І Pr 0 8 0 8 0,4 1,6 2


24(30)

m195 Advanced Methods of Metal Forming ІІ E 40 20 0 60 2,4 2,6 ІІ E 20 10 0 30 1,2 3,8 5

Options: one of the specialized subjects must be chosenm161 - Testing of Metals ІІ E 30 40 0 70 2,8 3,2 ІI E 15 20 0 35 1,4 4,6 6

m769 - Fracture of Metals ІІ E 30 40 0 70 2,8 3,2 ІI E 15 20 0 35 1,4 4,6 6

m780 - Fatigue of Metals ІІ E 30 40 0 70 2,8 3,2 ІI E 15 20 0 35 1,4 4,6 6

m386 Reengineering in Metal Forming ІІ E 30 40 0 70 2,8 3,2 ІІI E 15 20 0 35 1,4 4,6 6

m136 Research project ІІ Pr 0 50 0 50 1,5 1,5 ІІI Pr 0 25 0 25 1,0 2,0 3

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19m263 Project on Metal Testing, Fracture and Fatigue II Pr 0 15 0 15 0,6 2,4 ІII Pr 0 8 0 8 0,5 2,5 3



Pr Pr 8


Specialty : SYSTEMS AND EQUIPMENT FOR ENVIRONMENTAL PROTECTION IN METALLURGY

Professional qualification: Engineer-Metallurgist, Engineer, Chemist, Ecologist (According to the Bachelor Degree)

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Fundamental subjects: two from the optional block І E 40 20 0 60 2,0 2,0 І E 20 10 0 30 1,0 3,0 4

m172 Fluid Mechanics and Disperse Systems І E 40 20 0 60 2,4 2,6 IІ E 20 10 0 30 1,2 3,8 5

m452 Industrial Cleaning Systems І E 40 20 0 60 2,4 3,6 І E 20 10 0 30 1,2 4,8 6

m224 Basics of Material Flows Utilization Processes І E 45 25 0 70 2,8 3,2 ІI E 23 13 0 36 1,5 4,5 6

m124 Project on Environmental Ensuring I І Pr 0 15 0 15 0,6 1,4 І Pr 0 8 0 8 0,3 1,7 2


m063Ensuring Environmental Sustainability of Metallurgical Enterprises

ІІ E 30 20 0 50 2,0 3,0 ІІI E 15 10 0 25 1,0 4,0 5

m073 Energy Efficiency in Metallugy ІІ E 40 20 0 60 2,4 3,6 ІІ E 20 10 0 30 1,2 4,8 6

m455 Standardization and Environmental Management ІІ E 30 20 0 50 2,0 3,0 ІІI E 15 10 0 25 1,0 4,0 5


m125 Project on Ensuring Environmental Sustainability II ІІ Pr 0 15 0 15 0,6 1,4 ІІI Pr 0 8 0 8 0,3 1,7 2


Pre-graduation practice (full-time studies/par-time studies) – 4 weeks/ 2 weeks

Pr Pr 8


Specialty: METROLOGY

Professional qualification: EngineerS

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Courses for different bachelor-degree background:m220− Materials Science Fundamentals І C 20 10 0 30 1,0 1,0 І E 10 5 0 15 0,6 1,4 2

m242− Semiconductor and Silicate Materials І C 20 10 0 30 1,0 1,0 І E 10 5 0 15 0,6 1,4 2

m438− Metallic and Polymeric Materials I T 20 10 0 30 1,0 1,0 I E 10 5 0 15 0,6 1,4 2

m166 Metrology І E 30 15 0 45 1,8 3,2 І E 15 8 0 23 0,9 4,1 5

m085 Measurement and Examination of Materials – I (Electrical Parameters)

І E 20 10 0 30 1,2 2,8 І E 10 5 0 15 0,6 3,4 4

m367 Thin Solid Films (Composition, Structure and Properties) I E 20 10 0 30 1,2 1,8 I E 10 5 0 15 0,6 2,4 3

m375 Quality Management I T 20 10 0 30 1,2 1,8 II E 10 5 0 15 0,6 2,4 3

m137 Research Project I Pr 0 25 0 25 1,0 2,0 I Pr 0 12 0 12 0,5 2,5 3

Options: one of the specialized subjects must be chosenm168− Ferrous and Non-Ferrous Metrology I C 20 10 0 30 1,0 1,0 II E 10 5 0 15 0,6 1,4 2

m169− Polymer Materials Metrology I C 20 10 0 30 1,0 1,0 II E 10 5 0 15 0,6 1,4 2

m170− Semiconductor and Silicate Materials Metrology I C 20 10 0 30 1,0 1,0 II E 10 5 0 15 0,6 1,4 2


24(30)

m406 Chemical Composition of Materials ІІ E 30 15 0 45 2,0 2,0 ІІ E 15 8 0 23 1,0 3,0 4

m086 Measurement and Examination of Materials – II II E 20 10 0 30 2,0 2,0 II E 10 5 0 15 1,0 3,0 4

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19

(Nonelectrical Parameters)m165 Metrological and Normative Ensuring of Measurements II E 30 15 0 45 1,8 3,2 II E 15 8 0 23 0,9 4,1 5

m167 Metrology in Ecology II C 20 10 0 30 1,2 1,8 III E 10 5 0 15 0,6 2,4 3


m243 Semiconductor Sensors ІІ C 20 10 0 30 1,0 1,0 ІІI E 10 5 0 15 0,6 1,4 2

m278 Certification of Materials ІІ T 20 10 0 30 1,0 1,0 ІІI E 10 5 0 15 0,6 1,4 2



Pr Pr 8


Specialty : METALLIC MATERIALS

Professional qualification: Engineer-Metallurgist, Engineer, Chemist (According to the Bachelor Degree)

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Two fundamental subjectsm040 - CAD 3D (Object modeling in 3D space) I C 20 10 0 30 1,0 1,0 I E 10 5 0 15 0,5 1,5 2

m969 - Theory of Mass service I C 20 10 0 30 1,0 1,0 I E 10 5 0 15 0,5 1,5 2

Courses for different bachelor-degree background:b217− Fundamentals of (Extractive) Metallurgy and Metal casting I C 30 15 0 45 1,5 1,5 I E 20 10 0 30 1,2 1,8 3

b444− Foundations of Physical Metallurgy I C 30 15 0 45 1,5 1,5 I E 20 10 0 30 1,2 1,8 3

m326 Theory and Techniques of High Temperature Experiment I E 20 40 0 60 2,0 2,0 I E 10 20 0 30 1,2 2,8 4

m609 Microstructure and Properties of Metals I E 40 30 0 70 2,8 4,2 I E 20 15 0 35 1,4 5,6 7

m239 Plasticity and Strength of Metal I E 30 30 0 60 2,4 4,6 II E 15 15 0 30 1,4 5,6 7


22(28)

m304 Structure, Properties and Application of Engineering Alloys II E 40 20 0 60 2,4 4,6 II E 20 10 0 30 1,2 5,8 7

m051 Diffusion Coatings II E 20 20 0 40 1,5 1.5 III E 10 10 0 20 0,8 2,2 3

m199 Advanced Technologies and Materials II E 40 20 0 60 2,4 4,6 III E 20 10 0 30 1,2 5,8 7




Pr Pr 8


Специалност: MATERIALS SCIENCE AND ENGINEERING (taught in English language)

Professional qualification: EngineerS

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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19Additional Courses for students with different backgroundfrom BEng “Materials Science”

b227− Materials Science I E 40 20 0 60 2,0 2,0 4

b630− Physics of Materials I E 20 10 0 30 1,0 1,0 2

m176 Physical Chemistry of Materials I E 40 20 0 60 2,5 3,5 6

m193 Mechanics of Materials I E 40 20 0 60 2,5 3,5 6

m194 Statistics I E 30 20 0 50 2,0 3,0 5

m195 Information Technologies I E 20 30 0 50 2,0 2,0 4

m197 Language (Specialized) I C 0 30 0 30 1,0 1,0 2

m1000 Sport 30

Hours per semester 250/340

23/29

m198 Engineering Metals and Alloys II E 20 20 0 40 2,0 3,0 5

m199 Properties, Selection and Testing of Materials II E 40 40 0 80 3,0 4,0 7

m202 Environmental Materials Failure and Protection II E 20 10 0 30 1,5 2,5 4

m722 Finite Elements Method II E 10 20 0 30 1,0 2,0 3

m204 Project II C 0 40 0 40 2,0 2

m197 Language (Specialized) II C 0 30 0 30 1,0 1,0 2

m1000 Sport II 30

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19


m207 Engineering Metals and Alloys III E 20 20 0 40 1,5 2,5 4

m209 Engineering Ceramics and Glasses III E 20 20 0 40 1,5 2,5 4

m211 Engineering Polymer Materials III E 20 20 0 40 1,5 2,5 4

m212 Semiconductors (Electronic Materials) III E 20 20 0 40 1,5 2,5 4

ADVANCED MATERIALS

Options: one of the specialized subjects must be chosenm213− High Performance Alloys III C 30 10 0 40 1,5 1,5 3

m662− Advanced Ceramics and Glasses III C 30 10 0 40 1,5 1,5 3

m217− Advanced Polymer Materials III C 30 10 0 40 1,5 1,5 3

m219− Amorphous and Glassy Semiconductors III C 30 10 0 40 1,5 1,5 3

Options: one of the specialized subjects must be chosenm220− Composites III C 20 10 0 30 1,0 1,0 2

m222− Nanomaterials and Nanostructures ІII C 20 10 0 30 1,0 1,0 2

m223− Biomaterials III C 20 10 0 30 1,0 1,0 2

m224− Surface Engineering III C 20 10 0 30 1,0 1,0 2

m197 Language (Specialized) III C 0 20 0 20 1,0 1,0 2

m1000 Sport III 30

Additional Optional: one of the subjects must be chosenm226− Modeling in Nanomaterials Science III C 20 10 0 30 1,0 1,0 2

m768− Mechanical Testing of Materials III C 20 10 0 30 1,0 1,0 2

m231− Coatings and Layers III C 20 10 0 30 1,0 1,0 2

m233− Presentation Skills III C 10 10 0 30 1,0 1,0 2

m167− Management III C 10 10 0 30 1,0 1,0 2


Pre-graduation practice – 4 weeks III C 8

Diploma Thesis – 20 weeks IV DT 15

Specialty : NANOTECHNOLOGY AND NANOMATERIALS

Professional qualification: Engineer, Chemist (According to the Bachelor Degree)S

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Fundamental subjects: two from the optional block I E 40 20 0 60 2,0 2,0 I E 20 10 0 30 1,0 3,0 4

m221 Introduction to Nanoscience and Nanotechnology I E 30 15 0 45 1,8 3,2 I E 15 8 0 23 1,0 4,0 5

m231 Characterization and Properties of Nanostructured Materials I E 30 15 0 45 1,8 3,2 I E 15 8 0 23 1,0 4,0 5

m468 Physical Chemistry of Cluster Compounds I E 30 15 0 45 1,8 3,2 II E 15 8 0 23 1,0 4,0 5

Options: one of the specialized subjects must be chosen

m187− Nanocomposites I C 25 0 0 25 1,0 1,0 I E 13 0 0 13 0,5 1,5 2

m181− Modelling of Nanostructures I C 25 0 0 25 1,0 1,0 I E 13 0 0 13 0,5 1,5 2

m404− Fullerens and Related Structures I C 25 0 0 25 1,0 1,0 I E 13 0 0 13 0,5 1,5 2

m136 Research Project I - 0 40 0 40 1,5 1,5 I - 0 20 0 20 0,8 2,2 3


m031High Temperature Processing of Nanoparticles and Nanostructured Materials

II E 30 15 0 45 1,8 2,2 II E 15 8 0 23 1,0 3,0 4

m196Low Temperature Processing of Nanoparticles and Nanostructured Materials

II E 30 15 0 45 1,8 2,2 II E 15 8 0 23 1,0 3,0 4

m255 Application of Nanostructured Materials II E 30 15 0 45 1,8 2,2 II E 15 8 0 23 1,0 3,0 4

m453 Industrial Design and Equipment II E 30 15 0 45 1,8 2,2 II E 15 8 0 23 1,0 3,0 4


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m189− Nanomaterials in Mechanical Engineering II C 30 0 0 30 1,2 2,8 III E 15 0 0 15 0,6 3,4 4

m190− Nanomaterials in Medicine П C 30 0 0 30 1,2 2,8 III E 15 0 0 15 0,6 3,4 4

m191− Nanomaterials and Environmental Protection II C 30 0 0 30 1,2 2,8 III E 15 0 0 15 0,6 3,4 4




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Specialty: POLYMER MATERIALS

Professional qualification: Engineer, Chemical-engineer, Chemist-technologist (According to the Bachelor Degree)S

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Courses for different bachelor-degree background:b417− Chemistry and Physics of Polymers І E 30 15 0 45 1,5 1,5 І E 15 8 0 23 0,8 2,2 3

b319− Theoretical Fundamentals of Polymer Processing І E 30 15 0 45 1,5 1,5 І E 15 8 0 23 0,8 2,2 3

m318 Theoretical Fundamentals of Polymer Preparation І E 40 30 0 70 2,8 4,2 І E 20 15 0 35 1.4 5.6 7

m772 Mechanical Properties of Polymers І E 30 20 0 50 2,0 4,0 І E 15 10 0 25 1,0 5,0 6

m201 Ennoblement of Fiber Materials І E 20 20 0 40 1,6 2,4 ІІ E 10 10 0 20 0,8 3,2 4

m136 Research Project I І - 0 30 0 30 1,0 1,0 ІІ - 0 15 0 15 0,5 1,5 2


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m183 Modification of Polymers from Animals Origin ІІ E 20 20 0 40 1,6 2,4 ІІ E 10 10 0 20 0,8 3,2 4

m184 Modification of Polymers from Plant Origin ІІ E 20 20 0 40 1,6 2,4 ІІ E 10 10 0 20 0,8 3,2 4

m368 Coating Composite Materials ІІ E 30 20 0 50 2,0 4,0 ІІІ E 15 10 0 25 1.0 5,0 6

m456 Ageing and Recycling of Polymers ІІ E 40 20 0 60 2,4 3,6 ІІІ E 20 10 0 30 1.2 4.8 6

m136 Research Project II ІІ Pr 0 60 0 60 2,0 2,0 ІІІ Pr 0 30 0 30 1,0 3,0 4



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Specialty: SEMICONDUCTOR MATERIALS AND TECHNOLOGIES


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m395− Physics, Chemistry and Technology of Semiconductor

MaterialsІ E 30 15 0 45 1,0 1,0 І E 15 8 0 23 0,9 1,1 2

m357− Technology of Electronic Elements І E 30 15 0 45 1,0 1,0 І E 15 8 0 23 0,9 1,1 2

m332 Theory of Crystal Growth І E 30 15 0 45 1,8 4,2 І E 15 8 0 23 0,9 5,1 6

m007 Amorphous and Glassy Materials І E 25 10 0 35 1,4 3,6 І E 13 5 0 18 0,7 4,3 5

m071 Nanomaterials I C 20 10 0 30 1,2 2,8 I E 10 5 0 15 0,6 3,4 4

m136 Research Project I I Pr 0 50 0 50 2,0 2,0 I Pr 0 25 0 25 1 3,0 4

Options: one of the specialized subjects must be chosenm367− Magnetism and Magnetic Transmitters of Information I E 20 10 0 30 1,0 1,0 II E 10 5 0 15 0,6 1,4 2

m188− Ferrofluids I E 20 10 0 30 1,0 1,0 II E 10 5 0 15 0,6 1,4 2

m065− Alternative energy sources I E 20 10 0 30 1,0 1,0 II E 10 5 0 15 0,6 1,4 2


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m280 Semicoductor Sensors ІІ E 30 15 0 45 1,8 3,2 ІІ E 15 8 0 23 0,9 4,1 5

m084 Measurement of Parameters of Electrotechnical Materials II E 20 10 0 30 1,2 1,8 II E 10 5 0 15 0,6 2,4 3

m151 Membrane Processes for Deep Purification of Substances II E 30 15 0 45 1,8 3,2 II E 15 8 0 23 0,9 4,1 5

m285 Spectra Methods for Analysis of Materials II C 20 10 0 30 1,5 1,5 III E 10 5 0 15 0,8 2,2 3

m138 Research Project II ІІ Pr 0 40 0 40 1,0 1,0 ІІI Pr 0 20 0 20 0,8 1,2 2


1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19m144− Nanocomposites II C 20 10 0 30 1,0 1,0 ІІI E 10 5 0 15 0,6 1,4 2

m243− Power and Optoelectronic Semiconductor Devices II C 20 10 0 30 1,0 1,0 III E 10 5 0 15 0,6 1,4 2

Specialty: SILICATE MATERIALS


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Courses for different bachelor-degree background:

b365− Thermal Processes, Aggregates and Equipment in Silicate

TechnologiesІ E 30 15 0 45 1,5 1,5 І E 15 8 0 23 0,9 2,1 3

b279− Silicate Materials І E 30 15 0 45 1,5 1,5 І E 15 8 0 23 0,9 2,1 3

m136 Research Project І - 0 30 0 30 1,0 2,0 ІІ - 0 15 0 15 0,6 2,4 3

m287 Special Ceramic Materials І E 25 20 0 45 1,8 3,2 І E 13 10 0 23 0,9 4,1 5

m634Mathematical Modeling of Thermal and Hydrodynamic Processes in Silicate Industry

І E 25 20 0 45 1,8 3,2 І E 13 10 0 23 0,9 4,1 5

m284 Spectroscopy of Non-Metal Materials І E 25 20 0 45 1,8 3,2 І E 13 10 0 23 0,9 4,1 5

Options: one of the specialized subjects must be chosenm667− Non-Linear Optical Materials І C 25 0 0 25 1 1 І E 12 0 0 12 0,5 1,5 2

m180− Design of Materials І C 25 0 0 25 1 1 І E 12 0 0 12 0,5 1,5 2

m038− Renewable Energy Sources І C 25 0 0 25 1 1 І E 12 0 0 12 0,5 1,5 2


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m136 Research Project ІІ Pr 0 60 0 60 1,5 1,5 III Pr 0 30 0 30 1,2 1,8 3

m197 Advanced Glass and Glass-Ceramic Materials ІІ E 30 25 0 55 2,4 3,6 ІІ E 15 13 0 28 1,1 4,9 6

m405 Hybrid Materials ІІ E 30 25 0 55 2,4 3,6 ІІ E 15 13 0 28 1,1 4,9 6

m044 Regular Disperse Systems ІІ E 30 25 0 55 2,4 3,6 ІІI E 15 13 0 28 1,1 4,9 6

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19Options: one of the specialized subjects must be chosen

m715− Nanostructured Materials ІІ C 25 0 0 25 1 1 ІІI E 13 0 0 13 0,5 1,5 2

m032− High Temperature Superconductive Materials ІІ C 25 0 0 25 1 1 ІІI E 13 0 0 13 0,5 1,5 2

m211− Behavior and Processes of Thin Films and Layers Structures ІІ C 25 0 0 25 1 1 ІІI E 13 0 0 13 0,5 1,5 2



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faculty of metallurgy and materials science...

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