Materials Processing Techniques

a
Course
Undergraduate
Semester
Sem. III
Subject Code
AE214
Subject Title
Materials Processing Techniques

Syllabus

Theory of plastic deformation yield criteria steels and heat treatment processes – Metal forming the- ory, processes and systems applications of casting and forming operations manufacturing of fasteners.

Metal casting – theory, processes and systems Joining techniques in engineering/aerospace applica- tions fusion and solid state welding, processes and systems Defects in casting, forming, and welding Inspection practices and NDT.

Introduction to additive manufacturing systems.

Text Books

1. Beddoes, J. and Bibby, M. J., Principles of Metal Manufacturing Processes, Butterworth- Heinemann (1999).

2. Kalpakjian, S. and Schmidt, S. R., Manufacturing Processes for Engineering Materials, 5th ed., Pearson Education (2007).

References

1. Ghosh, A. and Mallik, A. K.,Manufacturing Science, Affiliated East West Press (2010).

2. Abbaschian, R., Abbaschian, L., and Reed-Hill, R. E., Physical Metallurgy Principles, 4th ed., Cengage Learning (2008).

3. Krishnadas Nair, C. G. and Srinivasan, R., Materials and Fabrication Technology for Satellite and Launch Vehicle, Navbharath Enterprises (2008).

4. Groover, M. P., Fundamentals of Modern Manufacturing: Materials, Processes, and Systems, 5th ed., Wiley-India (2012)

Course Outcomes (COs):
CO1: Discuss the fundamentals of theoretical/practical aspects in machining (Material removal) techniques that find extensive use in various mechanical/aerospace applications

CO2: Implement the above knowledge (a) for reasoning and problem-solving related to machining science and technology and (b) to comprehend industrial practices including CNC machining, non- traditional machining, etc.

CO3: Differentiate various terminologies/ methodologies /practices associated with machining techniques, to have an assessment of their suitability in end-use applications.