Basic HTML Version
Course
Pro-forma
Bachelor of Engineering (Materials)
Code
KMEB4348
Title
Superplasticity
Pre-requisite
None
Student Learning Time (SLT)
120 hours
Credit
3
Learning Outcomes
1.
Explain the applications of the fundamental concepts and
principles of high temperature deformation
2.
Explain the mechanism of superplasticity mechanism
3.
Evaluate superplasticity in solid materials
4.
Explain the applications of superplastic technology
Synopsis
Introduction on theory deformation in the event high
temperature, mekasnisme change superplastic form, features
change superplastic form and also latest applications superplastic
in industry
Assessment
40 % Continuous Assessments
60 % Final Examination
References
Superplasticity in Crystalline Solids, John Piling & Norman Ridley
(The Institue of Metals)-Maney Pub
Soft Skills
•
Communication Skills (CS1-CS3)
•
Critical Thinking and Problem Solving (CT1-CT3)
•
Life Long Learning (LL1-LL2)