Evolution of A356 with Flyash Composites on Metallurgical Mechanical and Tribological Behaviour under Dry and Wet Conditions 2021-28-0272
Among all metal matrix composites, A356 is the most applicable matrix due to its low density and exhibits nominal strength with soft nature. This proposed study is concerned with the examination of mechanical and tribological behavior of virgin A356 alloy and A356 reinforced with 10wt.% power plant waste flyash particles composites were processed by liquid metallurgy stir cum squeeze casting technique. The fabricated composites expose enhanced higher hardness when compared to the virgin A356 alloy due to the presence of flyash particles in the matrix. The wear and friction behavior of casted samples were evaluated with a pin on disk tribometer apparatus under dry and wet sliding environment at the presence of lubricant (SAE 80W-90) by varying sliding load of 10N-40N and sliding velocity of 1-3 m/s respectively. Wear rate increase with the increasing load and sliding velocity. The usage of lubricant tends to decrease the wear rate by reducing friction when compared to the dry sliding method. This was ascribed due to lubricant and constructive embedding along with the bonding ability of flyash particles over the A356 metal alloy. This outcome shows better abrasion resistance and adhesive behavior.
Citation: R, S., A, S., Kalaiarasan, K., and Kumar K, S., "Evolution of A356 with Flyash Composites on Metallurgical Mechanical and Tribological Behaviour under Dry and Wet Conditions," SAE Technical Paper 2021-28-0272, 2021, https://doi.org/10.4271/2021-28-0272. Download Citation
Author(s):
Soundararajan R, Sathishkumar A, Kaviyarasan Kalaiarasan, Sathish Kumar K
Affiliated:
Sri Krishna College of Engg & Tech., Sri Krishna College of Technology, Sri Krishna College of Engrg & Tech
Pages: 7
Event:
International Conference on Advances in Design, Materials, Manufacturing and Surface Engineering for Mobility
ISSN:
0148-7191
e-ISSN:
2688-3627
Related Topics:
Nanomaterials
Alloys
Tribology
Composite materials
Metallurgy
Adhesives and sealants
Wear
Metals
Joining
Fabrication
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