An extensive study of mechanical properties and tribological characteristics for hybrid composites

Aluminium-based Hybrid Metal Matrix Composites (MMCs) have received increasing attention in recent decades as new generation engineering materials. The introduction of two or more reinforcements into a metal matrix produces hybrid composite material that results in an attractive combination of mecha...

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Hauptverfasser:	Maniyar, Kamalkishor, Warke, Pushparaj, Jadhav, Pallavi, Waware, Shital, Harsur, Sunilkumar, Biradar, Ramdas
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Aerospace engineering Aluminum matrix composites Defense industry Hybrid composites Mechanical properties Metal matrix composites Silicon carbide Strength to weight ratio Thermal stability Tribology Wear rate Weight reduction
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creator	Maniyar, Kamalkishor Warke, Pushparaj Jadhav, Pallavi Waware, Shital Harsur, Sunilkumar Biradar, Ramdas
description	Aluminium-based Hybrid Metal Matrix Composites (MMCs) have received increasing attention in recent decades as new generation engineering materials. The introduction of two or more reinforcements into a metal matrix produces hybrid composite material that results in an attractive combination of mechanical properties and tribological characteristics which cannot be obtained by single reinforcement. This makes them attractive for wider range of applications in automotive, aerospace and defense industries. These materials have desirable qualities such as high strength to weight ratio, high toughness and low value of coefficient of thermal stability, wear rate etc. This paper presents critical review on Mechanical Properties and Tribological Characteristics of Aluminium Hybrid MMCs. It has been notified that aluminium metal matrix composites with multiple reinforcement showing improved mechanical properties and tribological characteristics. The addition of silicon carbide increases the hardness, strength of Al Hybrid MMC.
doi_str_mv	10.1063/5.0224994
format	Conference Proceeding
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source	AIP Journals Complete
subjects	Aerospace engineering Aluminum matrix composites Defense industry Hybrid composites Mechanical properties Metal matrix composites Silicon carbide Strength to weight ratio Thermal stability Tribology Wear rate Weight reduction
title	An extensive study of mechanical properties and tribological characteristics for hybrid composites
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