Superlegeringar, 7,5 hp
The PhD student should after completion of the course show knowledge and understanding to:
- why knowledge about superalloys and its corresponding metallurgy is important
- properties and advantages with superalloys
- differences in between various types of superalloys
- primary manufacturing and fabrication of superalloys
- testing methods for mechanical properties and fabrication
- suggest appropriate superalloy and explain the reason why in relation to load and temperature
- evaluate both mechanical and fabrication properties
The PhD student should after completion of the course:
- be able to explain and value differences and similarities for various superalloys
- be able to relate and explain selection of superalloys and evaluate its properties
- Introduction to superalloys and its applications
- Primary manufacturing
- Superalloy metallurgy
- Mechanical properties
- Fabrication methods with laboratories (Varestraint, Gleeble, Laser and TIG welding)
- Characterization of superalloys
- Superalloys and case studies regarding fabrication aspects
FAKTA
NIVÅ
Forskarnivå
BEHÖRIGHETSKRAV
Antagen till forskarutbildning i produktionsteknik eller liknande.
STUDIETAKT
Deltid
UNDERVISNINGSFORM
Campus
UTBILDNINGSTILLFÄLLEN
UNDERVISNINGSTID
Blandad undervisningstid
SISTA ANMÄLNINGSDAG
ÖPPEN FÖR SEN ANMÄLAN
ANMÄLNINGSKOD
HV-14662
START/SLUT
Från v.14 2026 till v.23 2026
EXTRA INFORMATION
The PhD student should after completion of the course show knowledge and understanding to:
- why knowledge about superalloys and its corresponding metallurgy is important
- properties and advantages with superalloys
- differences in between various types of superalloys
- primary manufacturing and fabrication of superalloys
- testing methods for mechanical properties and fabrication
The PhD student should after the course show the skill and ability in:
- suggest appropriate superalloy and explain the reason why in relation to load and temperature
- evaluate both mechanical and fabrication properties
The PhD student should after completion of the course:
- be able to explain and value differences and similarities for various superalloys
- be able to relate and explain selection of superalloys and evaluate its properties
The main content of the course
- Introduction to superalloys and its applications
- Primary manufacturing
- Superalloy metallurgy
- Mechanical properties
- Fabrication methods with laboratories (Varestraint, Gleeble, Laser and TIG welding)
- Characterization of superalloys
- Superalloys and case studies regarding fabrication aspects
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