G.G. Sozhamannan scite author profile

Conventional stir casting process has been employed for producing discontinuous particle reinforced metal matrix composites for decades. The major problem of this process is to obtain sufficient wetting of particle by liquid metal and to get a homogenous dispersion of the ceramic particles. In the present study, aluminium metal matrix composites were fabricated by different processing temperatures with different holding time to understand the influence of process parameters on the distribution of particle in the matrix and the resultant mechanical properties. The distribution is examined by microstructure analysis, hardness distribution and density distribution

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Influence of interface compounds on interface bonding characteristics of aluminium and silicon carbide

Sozhamannan

Prabu

2009

Materials Characterization

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Failures analysis of particle reinforced metal matrix composites by microstructure based models

2010

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Effect Of Applied Load On The Wear Performance Of 6061 Al/ Nano Ticp/ Gr Hybrid Composites

Sozhamannan

Yusuf

Aravind

et al. 2018

Materials Today: Proceedings

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Experimental study on behaviour of SiC and Graphene on AL7075 hybrid metal matrix composite

Hemalatha

Rai

Santhanam

et al. 2021

Materials Today: Proceedings

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Evaluation of interface bonding strength of aluminum/silicon carbide

Sozhamannan

Prabu

2008

Int J Adv Manuf Technol

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Investigating the effect of mechanical properties of magnesium alloy (AZ91D) reinforced with graphene metal matrix composite by stir casting method

Kumar

Sozhamannan

2022

Materials Today: Proceedings

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Corrosion and Hardness Behaviour of Al/GO Nanocomposites Processed by the Ultrasonic Gravitational Stir Casting Method

Narayanan

Sozhamannan

Hemalatha

et al. 2021

International Journal of Corrosion

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The objective of this work is to evaluate the corrosion behaviour of nanographene oxide reinforced aluminium (Al/GO) metal matrix composites with different immersion time periods using the immersion corrosion technique. The Al/GO composites were fabricated by the ultrasonic gravitational stir casting process. The corrosions of Al/GO were evaluated using a scanning electron microscope. The experimental results revealed that the corrosion rate decreased and weight losses increased with increasing immersion time periods. The nonimmersed Al/GO composites exhibited higher microhardness values compared to the immersed Al/GO composites.

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G.G. Sozhamannan

Effect of Processing Paramters on Metal Matrix Composites: Stir Casting Process

Influence of interface compounds on interface bonding characteristics of aluminium and silicon carbide

Failures analysis of particle reinforced metal matrix composites by microstructure based models

Effect Of Applied Load On The Wear Performance Of 6061 Al/ Nano Ticp/ Gr Hybrid Composites

Experimental study on behaviour of SiC and Graphene on AL7075 hybrid metal matrix composite

Evaluation of interface bonding strength of aluminum/silicon carbide

Investigating the effect of mechanical properties of magnesium alloy (AZ91D) reinforced with graphene metal matrix composite by stir casting method

Corrosion and Hardness Behaviour of Al/GO Nanocomposites Processed by the Ultrasonic Gravitational Stir Casting Method

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