/MS371/ Structure and Properties of Engineering Alloys

<MS371> 금속소재(Structure and Properties of Engineering Alloys)

Spring 2019Prof. Hyuck Mo Lee

/MS371/ Structure and Properties of Engineering Alloys

Introduction

MS371: Structure and Properties of Engineering Alloys

Spring 2019

Instructor: Prof. Hyuck Mo LeeTel) 042-350-3334 E-mail) hmlee@kaist.ac.kr

Teaching Assistant: Jung Woo Choi

Tel) 042-350-3374 C.P.) 010-3377-0188E-mail) woo0188@kaist.ac.kr

Homepage: http://triangle.kaist.ac.kr/

/MS371/ Structure and Properties of Engineering Alloys

Introduction Textbook:

- Structure and Properties of Engineering Alloysby William F. Smith (McGraw-Hill, 2nd ed., 1993)

References:1. Alloying: Understanding the Basics by J. R. Davis (ASM, 2001)2. Principles of Metal Manufacturing Process by J. Beddoes and M. J. Biddy

(Elsevier, 1999)3. Physical Metallurgy Principles by R. E. Reed-Hill and R. Abbaschian

(CL Engineering, 2008)

/MS371/ Structure and Properties of Engineering Alloys

America’s Best Colleges and Graduate Schools 2017

Undergraduate1. MIT2. Stanford Univ.3. UC-Berkeley

Graduate1. MIT2. Northwestern Univ.

UC-Santa Barbara4. Stanford Univ.

UIUC

/MS371/ Structure and Properties of Engineering Alloys

America’s Best Colleges and Graduate Schools 2018

Undergraduate1. MIT2. Stanford Univ.3. UC-Berkeley

Graduate1. MIT2. Northwestern Univ.3. UC-Santa Barbara4. Stanford Univ.

/MS371/ Structure and Properties of Engineering Alloys

America’s Best Colleges and Graduate Schools 2019

Undergraduate1. MIT2. Stanford Univ.3. UC-Berkeley

Graduate1. MIT2. Northwestern Univ.3. Stanford Univ.

UC-Berkeley

/MS371/ Structure and Properties of Engineering Alloys

QS World University Rankings by Subject 2018 -Materials Science

/MS371/ Structure and Properties of Engineering Alloys

국제협력 전략

DMSE Tohoku Univ. Japan (Oct 2012)

Centre for PlasticElectronics (CPE)Imperial College, UK(Sep 2012)

Argonne, LLCANL, USA(Jan 2013)

DMSEMIT, USA(Nov 2012)

DMSENTU, Singapore(Oct 2012)

DMSEUIUC, USA(Nov 2012)

- 세계 Top 재료공학과와의 추가적인 공동연구 협약 체결- MOU 체결 기관들과의 인적 물적 교류 활성화- 아시아 최고수준 대학 벤치마킹을 통한 대외 인지도 향상

DMSENU, USA(Nov 2017)

/MS371/ Structure and Properties of Engineering Alloys

International Cooperation (MOU)

Centre for PlasticElectronics (CPE)Imperial College, UK(Sep 2012)

Dept. of MSEMIT, USA (Nov 2012, April 2016)The Best Engineering School

Dept. of MSENTU, Singapore(Oct 2012, June 2017)Bio-Materials

Dept. of MSE Tohoku Univ., Japan(Oct 2012, June 2017)Metals & Ceramics

MSE

Dept. of MSEUIUC, USA (Nov 2012)2nd Best Engr School, Flexible Electronics

UChicago Argonne, LLCANL, USA (Jan 2013)Energy & Nanoscale Materials

Dept. of MSENU, USA (Nov 2017)

/MS371/ Structure and Properties of Engineering Alloys

QS World University Rankings by Subject 2018- Materials Science

/MS371/ Structure and Properties of Engineering Alloys

Massachusetts Institute of Technology (MIT)

MSE 3.14: Physical Metallurgy

Under/graduate course (meets with 3.40J, 22.71J)

Instructor: Prof. C. Tasan, tasan@mit.edu

C. Tasan

/MS371/ Structure and Properties of Engineering Alloys

MIT

Textbook:1. Physical Metallurgy Principles by Robert E. Reed-Hill and Reza Abbaschian

(CL Engineering, 2008)

/MS371/ Structure and Properties of Engineering Alloys

MIT

Course DescriptionFocuses on the links between the processing, structure, and properties of metals and alloys. First, the physical bases for strength, stiffness, and ductility are discussed with reference to crystallography, defects, and microstructure. Second, phase transformations and microstructural evolution are studied in the context of alloy thermodynamics and kinetics. Together, these components comprise the modern paradigm for designing metallic microstructures for optimized properties. Concludes with a focus on processing/microstructure/property relationships in structural engineering alloys, particularly steels and aluminum alloys.

/MS371/ Structure and Properties of Engineering Alloys

Univ. of Illinois, Urbana-Champaign (UIUC)

MSE 443: Design of Engineering Alloys

Under/graduate course

Instructor: Prof. Pascal Bellon, bellon@illinois.edu

Pascal Bellon

/MS371/ Structure and Properties of Engineering Alloys

UIUC

Textbook: Structure and Properties of Engineering Alloysby W. F. Smith

Course Outline1. Iron-carbon alloy system (Chaps 1 & 2) 2. Carbon and alloy steels (Chaps. 3 & 4)3. Stainless steels (Chap. 7)

4. Copper alloys (Chap. 6)5. Nickel alloys (Chap. 11)6. Intermetallics and superalloys (class notes, Chap. 11)

7. Aluminum alloys (Chap. 5)8. Titanium alloys (Chap. 10)9. Refractory metal alloys (Chap. 13)

/MS371/ Structure and Properties of Engineering Alloys

Univ. of California (UC) at Berkeley

MSE121: Metals Processing Undergraduate course Instructors:

- Prof. Ronald Gronskyrgronsky@berkeley.edu

Textbook: Principles of Metal Manufacturing Process

by J. Beddoes and M. J. Biddy (Elsevier, 1999)

/MS371/ Structure and Properties of Engineering Alloys

UC Berkeley

Course Description

- The principles of metals processing with emphasis on the use of processing to establish microstructures that impart desirable engineering properties. The techniques discussed include solidification, thermal and mechanical processing, powder processing, welding and joining, and surface treatments.

/MS371/ Structure and Properties of Engineering Alloys

Seoul National University

445.410: 금속재료학 (전공선택) 수강대상: 학부과정

Instructor: Prof. 오규환, kyuhwan@snu.ac.kr

http://engineering.snu.ac.kr

Course Description:철강재료, 알루미늄합금및티타늄합금등과같은대표적인금속재료를예로들어그

미세조직의형성거동을열역학및상변태이론에근거하여설명하고실제합금을제조

하여가공열처리를 시행함으로써미세조직의변화과정을고찰하고그재료의기계적

특성을평가해봄으로써재료의미세조직과 기계적특성과의상호관계를이해하도록한

다. 강의는많은부분을실험과그결과에대한발표와토론을중심으로진행함으로써

수강자들이새로운소재의개발능력을갖추도록한다.

/MS371/ Structure and Properties of Engineering Alloys

Seoul National University

Textbook:Structure and Properties of Engineering Alloys by W. F. Smith, (McGraw-Hill)

Reference:Structure and Properties of Engineering Materials by R.M Brick et al.Physical Metallurgy Principles by ReedHill et al. Physical Metallurgy by P. Haasen (Cambridge)Steels, Microstructure and Properties by H.K.D.H. Bhadeshia

/MS371/ Structure and Properties of Engineering Alloys

Seoul National University

Lecture Schedule 1, 2주 : 철-탄소합금계 (상평형및평형조직)

과제실험 : 합금의인장특성

3, 4주 : 철강의열처리조직 5주 : 저탄소강의조직과기계적특성

과제실험 : 탄소강의미세조직과인장강도와의상호관계해석

6주 : 열처리용강의경화능 7, 8주 : 알루미늄합금의열처리

과제실험 : 알루미늄합금의열처리

9, 10주 : 구리합금의열처리와기계적특성과제실험 : 구리합금의열처리

11, 12주 : 티타늄합금의열처리와기계적특성과제실험 : (α +β) 티타늄합금의열처리조직

13, 14주 : 탄탈륨합금의미세조직과기계적특성 15주: 보고서제출

/MS371/ Structure and Properties of Engineering Alloys

고려대학교 (Korea University)

AMSE333: 금속재료

수강대상: 학부과정

Instructor: Prof. 장호, hojang@korea.ac.kr

http://fmr.korea.ac.kr/

Course Description:금속및합금의구조와특성을공부한후물리적, 화학적, 전기적특성및생산비용관계

에기반하여금속과합금의응용을배운다.

/MS371/ Structure and Properties of Engineering Alloys

Lecture Schedule 1주 / 주제: Iron-Carbon Alloys 1 2주 / 주제: Iron-Carbon Alloys2 3주 / 주제: Carbon steels 3 4주 / 주제: Alloy steels and stainless steels 5주 / 주제: Cast Iron 6주 / 주제: Tool steel 7주 / 주제: Midterm examination 8주 / 주제: Al alloys 9주 / 주제: Copper alloys 10주 / 주제: Ti, Co, Ni alloys 11주 / 주제: Ti, Co, Ni alloys 12주 / 주제: Mg, Zn alloys 13주 / 주제: Mg, Zn alloys 14주 / 주제: Other advance metals and alloys 15주 / 주제: Other advance metals and alloys 16주 / 주제: Final examination

고려대학교

/MS371/ Structure and Properties of Engineering Alloys

한양대학교 (Hanyang University)

MGE3003: 금속재료 (전공핵심) 수강대상: 학부과정

Instructor: Prof. 이창희, chlee@hanyang.ac.kr

http://neomaterials.hanyang.ac.kr/

Course Description:본과정에서는실생활에가장많이접하는금속재료(순철, 탄소강, 특수강, 주철, 스테인

리스) 및비철금속(알루미늄합금, 내열성합금, Ti 및 Cu합금)의기본성질, 조직, 특성및

적용성에대한전반적인내용을다룬다. 조직및특성은상변태, 확산, 상태도등을이용

하여설명한다. 철강재료의 조직과성질을관련시켜합금강, 합금공구강, 고장력저합금

강, 규소강, 붕소강, 내열강등에관한물리야금학적 측면에서강술한다. 비철재료, 합금

에있어서의다성분계평형상태도의구조및해석, 합금시의고상화격자의예상, 비평

형상태도, 석출시효경화 등에관하여강의한다

/MS371/ Structure and Properties of Engineering Alloys

Textbook:1. Structure and Properties of Engineering Alloys by W. F. Smith,

(McGraw-Hill)

한양대학교

/MS371/ Structure and Properties of Engineering Alloys

Lecture Schedule 1주 / 주제: Iron-Carbon alloys (Fe-C 상태도) 2주 / 주제: Fe-C 상태도(반응, 상변태) 3주 / 주제: Fe-C 상태도(lever rule), TTT/CCT 4주 / 주제: Bainite, Martensite의특성 5주 / 주제: 저합금강의특성(경화능, 원소의영향) 6주 / 주제: 저합금강및탄소강의적용성 7주 / 주제: 스테인레스강의특성 (상태도, 오스테나이트) 8주 / 주제: 중간고사 9주 / 주제: 스테인레스강의특성 (페라이트, 마르텐사이트계) 10주 / 주제: 알루미늄합금(조직및특성) 11주 / 주제: 알루미늄합금(석출경화) 12주 / 주제: 내열합금(Ni합금)의특성 13주 / 주제: Ni-Cr, Ni-Cu합금등 14주 / 주제: 티타늄합금의종류및특성 15주 / 주제: Cu합금의조직및특성 16주 / 주제: 기말고사

한양대학교

/MS371/ Structure and Properties of Engineering Alloys

POSTECH (신소재공학과)

AMSE 321: Introduction to Metallic Materials (금속소재개론)

수강대상: 학부과정 (전공필수)

Instructor: Prof. 이성학, shlee@postech.ac.kr

http://smat.postech.ac.kr/

Course Description:본과목은물리야금학적인기본원리를소개하고금속소재에서일어나는다양한현상들에대해서이러한이론들이어떻게적용되는지이해한다. 또한다양한금속소재의제조와열처리방법등응용방법에대해서설명하고, 대표적인금속소재개발사례에대해서도소개한다. 본과목은금속소재의 확산과상변태, 응고, 제조및열처리, 분석방법, 대표적인합금소개의순서로진행될것이다. 아울러대표적인금속재료에대해원소재로부터최종제품이될때까지의공정 (용융, 제조, 열처리등) 을실험을통하여습득하고, 각공정에따른물리적화학적변화를미시적으로관찰한다. 미시적관찰 (OM, SEM), 미시적조성분석 (EDS, WDS), 구조분석 (XRD), 미시적물성 (경도, 인장성질) 분석등분석, 검사기법을제조된금속재료에적용하고, 이론으로배운내용과비교, 분석한다.

/MS371/ Structure and Properties of Engineering Alloys

Textbook:1. Physical Metallurgy and Advanced Materials,

Seventh edition by R. E. Smallman & A. H.W. Ngan(Elsevier Ltd)

2. Elements of Materials Science and EngineeringSixth edition by L. H. Van Vlack (Addison-Wesley)

POSTECH (신소재공학과)

/MS371/ Structure and Properties of Engineering Alloys

POSTECH (철강대학원)

GIFT660: Structure & Properties of Metallic alloys 수강대상: 대학원생

Instructor: Prof. 김낙준, njkim@postech.ac.kr

https://mcl.postech.ac.kr/

Course Description: