Physical Metallurgy

Synopsis of the course

금속의 여러 성질을 이해하기 위하여 금속의 원자구조, 결함을 배우고, 미세조직 형성 거동을 열역학과 속도론적 관점에서 분석한다. 이를 통하여 금속재료의 기계적 특성을 재료의 결정구조와 미세조직과의 상호관계로부터 해석할 수 있는 능력을 갖추도록 한다.

Teaching materials & Reference Books

주교재

  • R. Abbaschian, L. Abbaschian, R. E. Reed-Hill “Physical Metallurgy Principles” 4th Edition, Cengage Learning

참고문헌

  • D.A.Porter and K.E.Easterling “Phase Transformations in Metals   and Alloys”
  • Callister, “Materials Science and Engineering: An Introduction”Wiley
  • Glicksman,:”Diffusion in Solids; Fied Theory, Solid-State Principles, and Applicaitons,” Wiley
  • Weertman J. R. Weertman “Elementary Dislocation Theory”
  • Haasen “Physical Metallurgy” Cambridge
  • K.-N. Tu, J. mayer, L. Feldman, “Electronic Thin Film Science for   Electrical Engineers and Materials Scientist.”

Curriculum

Physical Metallurgy
1주
Introduction
Physical Metallurgy
Physical Metallurgy
2주
Structure, Bonding (Ch. 3)
Physical Metallurgy
Physical Metallurgy
3주
Dislocations (Ch. 4)
Physical Metallurgy
Physical Metallurgy
4주
Plastic deformation (Ch. 5)
Physical Metallurgy
Physical Metallurgy
5주
Grain Boundary (Ch. 6)
Physical Metallurgy
Physical Metallurgy
6주
Vacancy (Ch. 7)
Physical Metallurgy
Physical Metallurgy
7주
Diffusion (1) (Ch.12)
Physical Metallurgy
Physical Metallurgy
8주
Diffusion (2) (Ch.13), 중간고사
Physical Metallurgy
Physical Metallurgy
9주
Annealing (Ch. 8)
Physical Metallurgy
Physical Metallurgy
10주
Nucleation and Growth Kinetics (Ch.15)
Physical Metallurgy
Physical Metallurgy
11주
Precipitation (Ch.16)
Physical Metallurgy
Physical Metallurgy
12주
Iron-Carbon System (Ch.18)
Physical Metallurgy
Physical Metallurgy
13주
Microstructure and stress of thin film
Physical Metallurgy
Physical Metallurgy
14주
Nucleation and growth in nano system
Physical Metallurgy
Physical Metallurgy
15주
기말고사
Physical Metallurgy

Assessment & Grading

  • 중간시험 45%, 기말시험 55%, 과제 및 출석 10%