International Journal of Machine Design and Manufacturing

The fiber/matrix interface plays a significant role in determining the fracture behavior and mechanical properties of ceramic matrix composites. The critical driving force in the development of fiber reinforced ceramic composites has been the benefit of graceful failure and damage tolerance. In contrast to brittle ceramics, ceramic composites can survive local damage and inelastic deformation without catastrophic failure. The current research presents a review of interphase composition affecting the ceramic matrix composite.

Bacon D.J., Hull D. Introduction to Dislocations. 4th Edn. UK, Oxford: Butterworth Heinemann; 2001.

Smallman, R.E., Ngan A.H.W. Physical Metallurgy and Advanced Materials. 7th Edn. UK, Oxford: Butterworth Heinemann; 2007.

Hull D., Clyne T.W. An Introduction to Composite Materials. 2th Edn. Cambridge University Press: UK Cambridge; 1996.

Hashim J., Looney L., Hashmi M.S.J. The Enhancement of Wettability SiC particle in Cast Aluminum Materix Composite. Journal of Material Processing Technology, 2003; 11(2):329–35p.

Saheb D.A. Aluminum Silicon Carbide and Aluminum Graphite Particulate composite materials. Journal of Engineering and Applied Sciences. 2010; 6(10): 1819–37p.

Misra K. Production of AMC by Stir Casting. International Journal of Materials. 2004; 2(1):46–59p

Naher S., Brabazon D., Looney L. Simulation of the Stir Casting Process. Journal of Materials Processing Technology. 2003:4(4); 143–4p.