Additive Manufacturing of Metals and Alloys
Frequency
Every 2 years
Summary
This course is designed to cover a number of materials science aspects related to the field of additive manufacturing of metals and alloys, and to provide an in-depth review of corresponding fundamentals.
Content
1. Introduction to Additive Manufacturing (AM) of metals and AM methods (LPBF, EBM, DED, other methods such as
binder jetting)
2. Powder fabrication and characterization
3. Interaction between beam (laser, e-beam) and material, heat formation and heat flow in the material
4. Fundamentals of rapid solidification of metals and alloys
5. Microstructure formation and control during AM
6. Residual stresses and warpage, defects (porosity, cracks) in AM parts
7. Post-treatments and associated microstructure evolutions
8. Mechanical properties of AM parts (static, cyclic), mechanical anisotropy
9. Material specific considerations: AM of steels, Ni alloys, Ti alloys, Al alloys; AM of precious metals and Cu alloys; AM
of special materials (MMCs, gradient materials/multimaterials); Development/optimization of alloys
Keywords
metals and alloys, laser processing, electron beam melting, solidification, microstructure, post-treatment, mechanical properties, residual stresses
Learning Prerequisites
Required courses
Participants should be educated in materials science and engineering, physics, mechanical engineering or physical chemistry to benefit the most from this course.
Assessment methods
Oral presentation
In the programs
- Exam form: Oral presentation (session free)
- Subject examined: Additive Manufacturing of Metals and Alloys
- Lecture: 28 Hour(s)
- Type: optional
- Exam form: Oral presentation (session free)
- Subject examined: Additive Manufacturing of Metals and Alloys
- Lecture: 28 Hour(s)
- Type: optional
- Exam form: Oral presentation (session free)
- Subject examined: Additive Manufacturing of Metals and Alloys
- Lecture: 28 Hour(s)
- Type: mandatory