3. 강의목표
* ObjectivesThis class introduces mechanics of materials, plastic deformation ofsingle crystals, and dislocation theory, based on which strengtheningmechanisms of materials are studied. Mechanical testing and analysis ontensile, fracture, and fatigue tests are explained by fundamental theoryand experimental methods.
5. 성적평가
* Evaluation
1. Attendance 10%
2. Homework (7~8) 20%
3. Experimental Report (2) 20%
4. Examination (2) 50%
6. 강의교재
도서명 |
저자명 |
출판사 |
출판년도 |
ISBN |
Mechanical Metallurgy
|
Dieter
|
|
0000
|
|
7. 참고문헌 및 자료
* Texts
- F.P. Beer and E.R. Johnston, Jr. "Mechanics of Materials", 2nd Ed., 1992, McGraw-Hill
- G.E. Dieter "Mechanical Metallurgy", 3rd Ed., 1986, McGraw-Hill
8. 강의진도계획
* Course Outline
1. Introduction (1st)
2. Elastic Behavior of Materials (2nd)
3. Theory of Plasticity (3rd, 4th)
4. Dislocation Theory (4th, 5th, 6th)
5. Strengthening Mechanisms (6th, 7th)
6. Midterm exam. (8th)
7. Strengthening Mechanisms (9th)
8. Fracture, Fatigue, Creep (10th)
9. Mechanical testing (11th)
10. Finite element method: general (12th)
11. Finite element method: preprocessing (12th, 13th)
12. Finite element method: elastic (13th)
13. Finite element method: plastic and nonlinearlity (14th)
14. Finite element method: contact (14th)
15. Finite element method: composite. Rea; problem (15th)
16. Final exam. (16th)
11. 장애학생에 대한 학습지원 사항
- 수강 관련: 문자 통역(청각), 교과목 보조(발달), 노트필기(전 유형) 등
- 시험 관련: 시험시간 연장(필요시 전 유형), 시험지 확대 복사(시각) 등
- 기타 추가 요청사항 발생 시 장애학생지원센터(279-2434)로 요청