Ranvir Singh Panwar scite author profile

The present investigations are a comparative study of single and dual reinforcement particles on microstructural features and wear behavior in LM-13 aluminum-silicon alloy. Silicon carbide and zircon sand particles of 20-32 lm are reinforced in the alloy by two-step stir casting method. Wear study reveals that the dual particle reinforcement enhances the wear resistance as compared to single particle reinforcement if mixed in a definite proportion. Study also indicate that a combination of 15 % reinforcement of zircon sand and silicon carbide particles in the ratio of 1:3 into the composite exhibits better wear resistance as compared to other combination.

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Effect of Particle Size on Wear of Particulate Reinforced Aluminum Alloy Composites at Elevated Temperatures

Kumar

Pandey²,

Panwar

et al. 2013

J. of Materi Eng and Perform

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Study of Non-lubricated Wear of the Al–Si Alloy Composite Reinforced with Different Ratios of Coarse and Fine Size Zircon Sand Particles at Different Ambient Temperatures

et al. 2014

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Analysis of wear track and debris of stir cast LM13/Zr composite at elevated temperatures

Panwar

Pandey

2013

Materials Characterization

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Tribological Characteristics of Aluminium Tri-Reinforced Particles (Al-TRP) Composites Developed by Liquid Metallurgy Route

Kumar

Panwar

Pandey

2012

AMR

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Discontinuous reinforced aluminum matrix composites (DAMCs) are widely used in automobiles, military and many other engineering areas due to their attractive properties. DAMCs are used in automobile industries for manufacturing bogies, cars and other structural components. Apart from this it is also used in components which are subjected to high temperatures. In the present work we have studied the tribological characteristics of DAMCs containing zircon sand, SiC and Zirfloor as reinforced ceramic particles in Al alloy. These three types of ceramic particles (particle size 0-32 µm) are reinforced in the Al-12Si alloy (LM13) by liquid metallurgy route (stir casting technique). Total 15 wt% of the tri reinforced particles (TRP) are added in LM13 alloy to fabricate Al–TRP composite for tribological application. Wear characteristics of Al–TRP composites have been investigated under dry sliding conditions. Dry sliding wear tests have been carried out using a pin-on-disc method at 1Kg and 5Kg loads. Sliding distance during the wear test was about 3000 meters with a constant sliding velocity of 1.6 ms-1. In the study it was observed that wear rate of the composite increases with increase in amount of load. Microhardness measurement was done for the developed Al-TRP composite. SEM images of wear track on composite gives better idea of the wear mechanism. Wear debris collected after the wear test was also examined for deeper understanding of wear behavior. Study reveals that about equal amount of ZrSiO4, SiC and Zirfloor reinforced particle in Al-TRP composite exhibits better wear resistance compared to aluminum base alloy.

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