R. Amith scite author profile

R. Amith

3Publications

4Citation Statements Received

73Citation Statements Given

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Tribological characteristics of mahua oil with graphene nanoplatelets as anti-wear and extreme pressure additive

Hemanth¹,

Padmanabha²,

Prasanna³

et al. 2021

Surf. Topogr.: Metrol. Prop.

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The tribological investigation was performed to seek the role of graphene nanoplatelets (GNPs) in enhancing the physico-tribological properties of mahua oil. The flashpoint, fire point, viscosity, wear preventive characteristics (WPC) and extreme pressure characteristics (EPC) were conducted following the governing standards. A substantial decrement of 17% in the coefficient of friction, 15.15% in wear scar diameter was observed upon blending the 0.25 wt.% GNPs with mahua oil. The WPC morphology on the steel balls portrayed the micro tracks. The EPC investigation presented 1 wt. % GNPs blended mahua oil with the augmented outcome of 7.7% and this was portrayed to be the best GNPs loading in weld load perspective. However, at 0.1 wt.% of GNPs loading was identified as the best loading with a wear point of view. The morphology of EPC revealed severe abrasion and steel balls were exposed to very high temperatures and have undergone metal squeeze out from the contact surface. This article also discusses the different wear regimes and corresponding wear phenomena in four-ball tribology testing with the aid of micrographs. RECEIVED

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Computational Investigation of the Effect of Mullite Coating and Shape Variation on Inflow Characteristics and Thermal Stability on the Exhaust Manifold

Padmanabha¹,

Amith²,

Prasanna³

2021

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Computational study of effect of Ceramic coatings and piston bowl depth on heat fluxes of Re-entrant type piston

Suresha¹,

Padmanabha²,

Amith³

et al. 2021

IOP Conf. Ser.: Mater. Sci. Eng.

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R. Amith

Tribological characteristics of mahua oil with graphene nanoplatelets as anti-wear and extreme pressure additive

Computational Investigation of the Effect of Mullite Coating and Shape Variation on Inflow Characteristics and Thermal Stability on the Exhaust Manifold

Computational study of effect of Ceramic coatings and piston bowl depth on heat fluxes of Re-entrant type piston

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