Aerospace Materials And Processes | Indian Institute of Space Science and Technology

Course

Postgraduate

Semester

Electives

Subject Code

AE761

Subject Title

Aerospace Materials And Processes

Syllabus

Properties of materials: strength, hardness, fatigue, and creep – Ferrous alloys: stainless steels, maraging steel, aging treatments – Aluminum alloys: alloy designation and tempers, Al-Cu alloys, principles of age hardening, hardening mechanisms, Al-Li alloys, Al-Mg alloys, nanocrystalline alu- minum alloys – Titanium alloys: α-β alloys, superplasticity, structural titanium alloys, intermetallics– Magnesium alloys: Mg-Al and Mg-Al-Zn alloys – Superalloys: processing and properties of super- alloys, single-crystal superalloys, environmental degradation and protective coatings – Composites: metal matrix composites, polymer based composites, ceramic based composites, carbon carbon composites.

Text Books

Same as Reference

References

1. Polmear, I. J., Light Alloys: From Traditional Alloys to Nanocrystals, 4th ed., Elsevier (2005).

2. Reed, R. C., The Superalloys: Fundamentals and Applications, Cambridge Univ. Press (2006).

3. Gupta, B., The Aerospace Materials, S. Chand Publishing (2002).

4. Cantor, B., Assender, H., and Grant, P. (Eds.), Aerospace Materials, CRC Press (2001).

5. ASM Speciality Handbook: Heat Resistant Materials, ASM International (1997).

6. Campbell, F. C., Manufacturing Technology for Aerospace Structural Materials, Elsevier (2006).

7. Kainer, K. U. (Ed.), Metal Matrix Composites, Wiley-VCH (2006).