Journal of Advancements in Material Engineering

The usage of high performance wear resistance material for tribological applications has been the driving force behind the improvement of hybrid composite substances. The usage of mono ceramic reinforcement in Al matrix composite increases mechanical in addition to tribological residences glaringly. The brand new kind of composite known as Hybrid composites in which houses of more than one appropriate reinforcement have been exploited to improve the overall houses of composite together with tribological houses. 

Deuis R.L., Subramanian C., Yellup J.M., Dry sliding put on of aluminum composites: A evaluate, Composite technological know-how and generation, fifty seven (1997) 415-435.

Chen R., Iwabuchi A., Shimizu T., Shin S.H., Mifune H, The sliding put on behavior of NiAl and SiC particles reinforced aluminum alloy matrix composites, put on, 213 (1997) one hundred seventy five-184.

Iwai Y., Honda T., Miyajima T., Iwasaki Y., Surappa M.ok., Dry sliding wear conduct of Al2O3 fiber bolstered aluminum composites, Composites technology and generation, 60 (2000) 1781-1789.

Miyajima T., Iwai Y., effect of reinforcement on sliding put on conduct of aluminum matrix composites, wear, 255 (2003) 606-616.

Xue Q., Bai M., Tribological houses of SiC whisker and molybdenum particle bolstered aluminum matrix composites underneath lubrication, put on, 195 (1996) sixty six-73.

Jun D., Yaohui L., Sirong Y., Handa D., effect of fibreorientation on friction and wear properties of Al2O3 and carbon short fibres reinforced AlSi12CuMgNi hybrid composites, put on, 254 (2003) 164-172.

Jun D., Yao-hui L., Si-rong Y., Wen- fang L., Dry sliding friction and put on homes of Al2O3 and carbon brief fibres reinforced Al-12Si alloy hybrid composites, put on, 257 (2004) 930-940.

Basavarajappa S., Chandramohan G., Mukund ok., Ashwin M., Prabu M., Dry sliding wear behavior of Al 2219/SiCpGr hybrid metallic matrix composites, JMEPEG, 15 (2006) 668-674.

Suresha S., Sridhara B.k., effect of silicon carbide particulates on wear resistance of graphitic aluminum matrix composites, substances and design, 31 (2010) 4470- 4477.

Dharmalingam S., Subramanian R., Vinoth k.S., Anandavel B., Optimization of tribological homes in use of GrayTaguchi technique, JMEPEG, 20 (2011) 1457-1466.

Sannino A.P., Rack H.J., Dry sliding wear of discontinuously bolstered aluminum composites: review and discussion, put on, 189 (1995) 1-19.

Alidokht. S.A., Abdollah-zadeh A., Assadi H., effect of carried out load on the dry sliding put on conduct and the subsurface deformation on hybrid metal matrix composite,

Ravindran P., Manisekar k., Narayanasamy P., Selvakumar N., Narayanasamy R., application of factorial techniques to observe the wear of Al hybrid composites with graphite addition, materials and layout, 39(2012) forty two-54.

Babu J.S.S., Kang C.G., Kim H.H., Dry sliding put on conduct of aluminum primarily based hybrid composites with graphite nanofiber-alumina fiber, materials and layout, 32 (2011) 3920-3929.

Basavarajappa S., Chandramohan G., Mahadevan A., Thangavelu M., Subramanian R., Gopalkrishnan P., have an effect on sliding velocity at the dry sliding put on conduct and the subsurface defoermation on hybrid steel matrix composite, put on, 262 (2007) 1007-1012.

Wang Y.Q., Afsar A.M., Jang J.H., Han okay.S., track J.I., Room temperature dry and lubricant wear conduct of Al2O3f/ SiCp/Al hybrid metallic matrix composites, put on, 268 (2010) 863-870.

Ahlatci H., Kocer T., Candan E., Cimenoglu H., put on conduct of Al/ (Al2O3p+ SiCp) hybrid composites, Tribology global, 39 (2006) 213-220.