Computational Methods of Alloy Design
Course Code
MG4038
Number of Credits
2
Semester
Course Type
Study Material
| Study Material | Depth |
|---|---|
| Alloy design approaches | Expert |
| Introduction to computational materials and metallurgy | Expert |
| First-principle density functional theory (DFT) method | Expert |
| Molecular dynamics method | Expert |
| Computational thermodynamics (CALPHAD) method | Expert |
| Machine learning methods | Expert |
Graduate Learning Outcomes (GLO) carried by the course
| CPMK Code | Course Learning Outcomes Elements (CLO) |
|---|---|
| CPMK 1 | Able to apply and disseminate knowledge related to metal alloy design and the basics related to it through computational methods. |
| CPMK 2 | Able to understand and analyze applications and principles in compiling computer simulations in metal alloy design. |
| CPMK 3 | Able to design new metal alloys on an atomic scale with better mechanical properties. |
| CPMK 4 | Able to compile computational methods, conduct simulations on an atomic scale to design new metal alloys with better mechanical properties, and produce results. |
Learning Method
- Classroom Learning Activities Structured Assignment Activities Practical Work
Learning Modality
- Combination of lectures and discussions, self-study from literature or videos, problem-based learning, independent assignments, regular quizzes together, cooperative learning, and computational laboratory exercises.
Assessment Methods
- Midterm Exam (UTS) Final Exam (UAS) Independent Assignments Quizzes or Other Assessment Components Skills in Execution, Reporting, and Presentation of Computational Laboratory Results