The purpose of this course is fundamentally focused on the structures and properties of materials including atomic structure and bonding, crystallography, structure of materials, defects and diffusion, mechanical properties, strengthening mechanisms, and failure.
1. Introduction
2. Atomic Structure and Interatomic Bonding
3. The Structure of Crystalline Solids
4. Imperfections in Solids
5. Diffusion
6. Mechanical Properties of Metals
7. Dislocations and Strengthening Mechanisms
8. FailureThe purpose of this course is fundamentally focused on the structures and properties of materials including atomic structure and bonding, crystallography, structure of materials, defects and diffusion, mechanical properties, strengthening mechanisms, and failure.
1. Introduction
2. Atomic Structure and Interatomic Bonding
3. The Structure of Crystalline Solids
4. Imperfections in Solids
5. Diffusion
6. Mechanical Properties of Metals
7. Dislocations and Strengthening Mechanisms
8. Failure
The purpose of this course is fundamentally focused on the structures and properties of materials including atomic structure and bonding, structure of metals, defects and diffusion in solids, mechanical properties, dislocations and strengthening mechanisms, phase diagrams, and phase transformations.
The purpose of this course is fundamentally focused on the structures and properties of materials including atomic structure and bonding, structure of metals, defects and diffusion in solids, mechanical properties, dislocations and strengthening mechanisms, phase diagrams, and phase transformations.
Textbook:
W. D. Callister, Jr. and D. G. Rethwisch, Materials Science and Engineering, 10th Edition, John Wiley & Sons, 2020.
References:
1. W. F. Smith and J. Hashemi, Foundations of Materials Science and Engineering, 5th Edition, McGraw-Hill, 2009.
2. J. P. Schaffer, A. Saxena, S. D. Antolovich, T. H. Sanders, Jr., and S. B. Warner, The Science and Design of Engineering Materials, 2nd Edition, McGraw-Hill, 1999.
3. K. G. Budinski and M. K. Budinski, Engineering Materials: Properties and Selection, 9th Edition, Pearson, 2010.
4. R. E. Hunnel, Understanding Materials Science, Springer, 1998.
5. 方治國、江可達、林本源、林啟瑞、林進誠、李志偉、洪天送、張進興、張樹仁、陳志明、陳昌順、謝忠佑,“機械材料實驗”,第二版,高立圖書有限公司,2006年1月。
6. 陳永增、鄧惠源,“機械材料實驗”,第二版,高立圖書有限公司,2009年1月。
7. 詹添印、廖德潭、周漢標,“機械材料試驗”,第二版,全華圖書股份有限公司,2009年12月。
8. 雷添壽、林本源、溫東成,“機械工程實驗(一)”,全華圖書股份有限公司,2001年12月。
Textbook:
W. D. Callister, Jr. and D. G. Rethwisch, Materials Science and Engineering, 10th Edition, John Wiley & Sons, 2020.
References:
1. W. F. Smith and J. Hashemi, Foundations of Materials Science and Engineering, 5th Edition, McGraw-Hill, 2009.
2. J. P. Schaffer, A. Saxena, S. D. Antolovich, T. H. Sanders, Jr., and S. B. Warner, The Science and Design of Engineering Materials, 2nd Edition, McGraw-Hill, 1999.
3. K. G. Budinski and M. K. Budinski, Engineering Materials: Properties and Selection, 9th Edition, Pearson, 2010.
4. R. E. Hunnel, Understanding Materials Science, Springer, 1998.
5. Fang Zhiguo, Jiang Keda, Lin Benyuan, Lin Qirui, Lin Jinyi, Li Zhiwei, Hong Tianshuang, Zhang Jinxing, Zhang Qianren, Chen Zhiming, Chen Changsong, Xie Zhongyou, "Mechanical Materials Experience", Second Edition, Gaoli Books Co., Ltd., January 2006.
6. Chen Yongzeng, Dun Huiyuan, “Mechanical Materials Experience”, Second Edition, Gaoli Books Co., Ltd., January 2009.
7. Zhan Tianyin, Liao Detan, Zhou Hantong, "Mechanical Materials Test", Second Edition, Quanhua Books Co., Ltd., December 2009.
8. Lei Tianqian, Lin Benyuan, Wen Dongcheng, "Mechanical Engineering Experience (I)", Quanhua Books Co., Ltd., December 2001.
| 評分項目 Grading Method | 配分比例 Grading percentage | 說明 Description |
|---|---|---|
| AttendanceAttendance Attendance |
5 | |
| HomeworkHomework Homework |
10 | |
| Exam 1Exam 1 Exam 1 |
20 | |
| Exam 2 (期中考)Exam 2 (期中考) Exam 2 (Middle term exam) |
20 | |
| Exam 3 (學期考)Exam 3 (學期考) Exam 3 (Study Exam) |
30 | |
| PracticePractice Practice |
15 |
