Research Journal of Applied Sciences
Year:
2016
Volume:
11
Issue:
5
Page No.
188 - 196
References
Chawla, N. and Y.L. Shen, 2001. Mechanical behavior of particle reinforced metal matrix composites. Adv. Eng. Mater., 3: 357-370.
Direct Link | Dieter, G.E., 1988. Mechanical Metallurgy. 1st Edn., McGraw-Hill, New York, ISBN: 0071004068.
Ellis, M.B.D., 1996. Joining of Al-based metal matrix composites-a review. Mater. Manuf. Process., 11: 45-66.
CrossRef | Direct Link | Flemings, M.C., 1991. Behavior of metal alloys in the semisolid state. Metall. Trans. A., 22: 957-981.
CrossRef | Direct Link | Ham, R.K., 1969. Strengthening by ordered precipitates. Proceedings of the 3rd Bolton Landing Conference on Ordered Alloys Structural Applications and Physical Metallurgy, September 8-10, 1969, Lake George, New York, pp: 365-374.
Hashim, J., L. Looney and M.S.J. Hashmi, 2001. The wettability of SiC particles by molten aluminium alloy. J. Mater. Process. Technol., 119: 324-328.
CrossRef | Direct Link | Jayalakshmi, S. and M. Gupta, 2015. Metallic Amorphous Alloy Reinforcements in Light Metal Matrices. Springer International Publishing, New York, ISBN: 978-3-319-15015-4, Pages: 112.
Kainer, K.U., 2006. Metal Matrix Composites: Custom-made Materials for Automotive and Aerospace Engineering. Wiley, New York, ISBN: 978-3-527-31360-0, Pages: 330.
Lloyd, D.J., H. Lagace, A. McLeod and P.L. Morris, 1989. Microstructural aspects of aluminium-silicon carbide particulate composites produced by a casting method. Mater. Sci. Eng.: A, 107: 73-80.
CrossRef | Direct Link | Modi, O.P., A.H. Yegneswaran, R. Asthana and P.K. Rohatgi, 1988. Thermomechanical processing of aluminium-based particulate composites. J. Mater. Sci., 23: 83-92.
CrossRef | Direct Link | Moon, J., S. Kim, J.I. Jang, J. Lee and C. Lee, 2008. Orowan strengthening effect on the nanoindentation hardness of the ferrite matrix in microalloyed steels. Mater. Sci. Eng., 487A: 552-557.
CrossRef | Direct Link | Murty, S.V.S.N., B.N. Rao and B.P. Kashyap, 2003. On the hot working characteristics of 6061Al-SiC and 6061-Al
2O
3 particulate reinforced metal matrix composites. Compos. Sci. Technol., 63: 119-135.
CrossRef | Direct Link | Nardone, V.C. and K.M. Prewo, 1986. On the strength of discontinuous silicon carbide reinforced aluminum composites. Scripta Metallurgica, 20: 43-48.
CrossRef | Direct Link | Sanaty-Zadeh, A., 2012. Comparison between current models for the strength of particulate-reinforced metal matrix nanocomposites with emphasis on consideration of Hall-Petch effect. Mater. Sci. Eng.: A, 531: 112-118.
CrossRef | Direct Link | Shankar, M.C.G., P.K. Jayashree, R. Shetty, A. Kinia and S.S. Sharma, 2013. Individual and combined effect of reinforcements on stir cast aluminium metal matrix composites-a review. Int. J. Curr. Eng. Technol., 3: 922-934.
Direct Link | Skoglund, P., M. Kejzelman and I. Hauer, 2002. High Density PM Components by High Velocity Compaction. In: Advances in Powder Metallurgy and Particulate Materials, Arnhold, V. and C.L. Chu (Eds.). Metal Powder Industries Federation, USA., pp: 85-95.
Yang, L.J., 2003. The effect of casting temperature on the properties of squeeze cast aluminium and zinc alloys. J. Mater. Process. Technol., 140: 391-396.
CrossRef | Zhang, H., K.T. Ramesh and E.S.C. Chin, 2004. High strain rate response of aluminum 6092/B
4C composites. Mater. Sci. Eng.: A, 384: 26-34.
CrossRef | Direct Link | Zhang, H., M.W. Chen, K.T. Ramesh, J. Ye, J.M. Schoenung and E.S.C. Chin, 2006. Tensile behavior and dynamic failure of aluminum 6092/B
4C composites. Mater. Sci. Eng.: A, 433: 70-82.
CrossRef | Direct Link | Zhang, Z. and D.L. Chen, 2008. Contribution of Orowan strengthening effect in particulate-reinforced metal matrix nanocomposites. Mater. Sci. Eng.: A, 483: 148-152.
CrossRef | Direct Link |