Wear performance of Al-TiC composite at elevated temperature

Agrawal, Eshan; Tungikar, Vinod B.

doi:10.1108/wje-08-2020-0396

WJE

2021

DOI: 10.1108/wje-08-2020-0396

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Wear performance of Al-TiC composite at elevated temperature

Eshan Agrawal¹,

Vinod B. Tungikar²

Abstract: Purpose Aluminium matrix composites are subjected to wear as well as higher temperature applications such as pistons, cylinder heads and blocks for car engines. Therefore, it is important to evaluate the performance of aluminium metal matrix composite at elevated temperature. Design/methodology/approach In the present work wear performance of Al-TiC composite with 7.5% reinforcement of TiC powder is carried out at elevated temperature. The composite specimens are prepared with the help of centrifugal casting… Show more

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Cited by 8 publications

References 18 publications

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Comparative analysis of the corrosion resistance of Bos taurus and Cocos nucifera–reinforced 1170 aluminum alloy in chloride-sulfate solution

Loto,

Ogunleye,

Oladipupo

et al. 2023

Int J Adv Manuf Technol

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Reinforced AA1170 aluminium alloy with particulates of Bos taurus (BT) and Cocos nucifera (CN) (0% to 20% wt. concentration) was evaluated for their corrosion resistance properties in 3.5% NaCl and 0.05 M H 2 SO 4 solution by potentiodynamic polarization, open circuit potential analysis, potentiostatic analysis, optical and scanning electron microscopy and x-ray diffractometry. Results showed corrosion rate of monolithic aluminium alloy (0% particulate wt. concentration) from both electrolytes (3.5% NaCl and 0.05 M H 2 SO 4 ) are 0.204 and 0.259 mm/y. Corrosion rate of BT reinforced composites from both solutions decreased with respect to BT particulate concentration to 0.087 and 0.216 mm/y at 20% BT. Whereas corrosion rate of CN reinforced composites decreased to 0.161 mm/y in 3.5% NaCl and increased to 0.434 mm/y in 0.05 M H 2 SO 4 at 20% CN concentration. The most passivated aluminium composites from polarization plots occurred 5% BT and CN particulate concentrations. Increase in particulate concentration results in vulnerability to localized corrosion. Open circuit potential plots show the presence of the particulate reinforcements increased the thermodynamic instability of the surface properties of the composite and its exposure to active-passive transition behavior. Optical and scanning electron microscopy indicates signi cant improvements in the corrosion resistance of BT and CN particle reinforced aluminium compared to the unreinforced alloy were signi cant surface deterioration, pitting corrosion and intergranular corrosion were presence. X-ray diffractometry showed the phases identi ed for BT particle reinforced composite (Al 2 O 3 , Cu S 2, Zn S 2, ZnCO 3 and CuO 2 ) signi cantly enhances it corrosion resistance compared to the monolithic and CN particle reinforced composite.

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Comparative analysis of the corrosion resistance of Bos taurus and Cocos nucifera–reinforced 1170 aluminum alloy in chloride-sulfate solution

Loto,

Ogunleye,

Oladipupo

et al. 2023

Int J Adv Manuf Technol

View full text Add to dashboard Cite

show abstract

Experimental investigation and parameters optimization for better wear performance at elevated temperature of aluminium composites using RSM and GRA

Kumar¹,

Dabade²,

Wankhade³

2022

Int J Interact Des Manuf

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Experimental investigation on tribological performance and development of wear prediction equation of aluminium composite at elevated temperatures

Kumar¹,

Dabade²,

Wankhade³

et al. 2022

Int J Interact Des Manuf

View full text Add to dashboard Cite

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Wear performance of Al-TiC composite at elevated temperature

Cited by 8 publications

References 18 publications

Comparative analysis of the corrosion resistance of Bos taurus and Cocos nucifera–reinforced 1170 aluminum alloy in chloride-sulfate solution

Comparative analysis of the corrosion resistance of Bos taurus and Cocos nucifera–reinforced 1170 aluminum alloy in chloride-sulfate solution

Experimental investigation and parameters optimization for better wear performance at elevated temperature of aluminium composites using RSM and GRA

Experimental investigation on tribological performance and development of wear prediction equation of aluminium composite at elevated temperatures

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