Ceramic Materials Processing and Technology
課程介紹
陶瓷材料製程與科技
Ceramic Materials Processing and Technology — 114-2 Elective course (3 credits). Bulk and thin-film ceramics, thermodynamics, fabrication engineering, and applications.
✦ Course Information
| Course title | 陶瓷材料製程與科技 / Ceramic Materials Processing and Technology |
|---|---|
| Semester | 114-2 |
| Department | Materials Science and Engineering |
| Administrative Curriculum Number | 527U2300 |
| Teaching Curriculum Number | MSE5073 |
| Class | — |
| Credits | 3 |
| Full / Half Yr. | Half |
| Required / Elective | 選修 (Elective) |
| Remarks | Limit: 50 students |
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Class Section
| Class | Instructor | Time | Location |
|---|---|---|---|
| — | Prof. Haw-Tyng Huang | Monday 13:20–16:20 | — |
Course Description
This course is to provide a guide to production of bulk and thin film ceramic materials. The processes will be examined from the viewpoints of thermodynamics, kinetics, and phase equilibrium and transformations. In addition, the application of ceramic materials in modern technology will be introduced.
Course Objective
It is expected that upon completion of this course, the student will be able to understand the synthesis method of ceramic material and their technological importance.
Course Requirement
- Course Requirement: Thermodynamics in Materials Science
- Office Hours: 3–4 hours
- Designated reading:
- Evans, J.W. and De Jonghe, L.C. The Production of Inorganic Materials. Prentice Hall, 1991.
- Dehoff, Robert T. Thermodynamics in Materials Science. 2nd ed. Taylor & Francis Group, 2006.
References
Campbell, S. A., Fabrication Engineering at the Microand Nanoscale, Oxford University Press Inc., 2008.
Grading
(僅供參考)
| No. | Item | % |
|---|---|---|
| 1. | Midterm | 35% |
| 2. | Final exam | 35% |
| 3. | Final Term Project | 30% |
Progress
| Week | Date | Topic |
|---|---|---|
| Week 1 | 2/23 | Part I: Material Processing, An Introduction |
| Week 2 | 3/2 | Part 2: Chemical Thermodynamics, A Review of Auxiliary Functions |
| Week 3 | 3/9 | Part 2: Chemical Thermodynamics, Chemical Potentials |
| Week 4 | 3/16 | Part 2: Chemical Thermodynamics, Ellingham Diagrams |
| Week 5 | 3/23 | Part 2: Chemical Thermodynamics, Predominance Diagram |
| Week 6 | 3/30 | Part 2: Chemical Thermodynamics, Pyro-metallurgy |
| Week 7 | 4/06 | Class Cancel due to National Holiday |
| Week 8 | 4/13 | Part 2: Chemical Thermodynamics, Hydro-metallurgy and Electro-metallurgy |
| Week 9 | 4/20 | Midterm Exam |
| Week 10 | 4/27 | Part 3: Fabrication Engineering, Rapid Thermal Processing |
| Week 11 | 5/04 | Part 3: Fabrication Engineering, Chemical Vapor Deposition |
| Week 12 | 5/11 | Part 4: High Temperature Superconductor, Phenomenological Theories |
| Week 13 | 5/18 | Special Topic: A case study on IP Portfolio |
| Week 14 | 5/25 | Part 4: High Temperature Superconductor, Thermodynamic Effects of External Field |
| Week 15 | 6/01 | Part 4: High Temperature Superconductor, Thermodynamic Effects of External Field |
| Week 16 | 6/08 | Final Exam |
