Influence of Heat Variation on Thermal and Mechanical Performance of Al-7075-Based Hybrid Composites

Influence of Heat Variation on Thermal and Mechanical Performance of Al-7075-Based Hybrid Composites

Al-7075 as matrix and E-glass fibre and tungsten carbide powders as reinforcement materials were mixed to develop composite materials. Standard testing techniques were used to assess the mechanical characteristics, such as tensile strength, hardness, and impact resistance. Furthermore, the thermal p...

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Veröffentlicht in:Journal of the Institution of Engineers (India): Series D 2024, Vol.105 (3), p.1391-1402
Hauptverfasser: Santhosh Kumar, B. M., Swamy, G. M., Aprameya, C. R., Bavan, Saravana, Venkatesh, B. N., Kumar, Prakash, Nagaraja, T. K.
Format: Artikel
Sprache:eng
Schlagworte:
Aluminum base alloys
E glass
Engineering
Glass fiber reinforced plastics
Glass fibers
Heat transfer
Heat treatment
Hybrid composites
Impact resistance
Mechanical properties
Original Contribution
Tensile strength
Thermal conductivity
Thermal expansion
Thermal resistance
Thermodynamic properties
Tungsten carbide
Yield strength
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Beschreibung
Zusammenfassung:Al-7075 as matrix and E-glass fibre and tungsten carbide powders as reinforcement materials were mixed to develop composite materials. Standard testing techniques were used to assess the mechanical characteristics, such as tensile strength, hardness, and impact resistance. Furthermore, the thermal properties of the composites, such as thermal conductivity and coefficient of thermal expansion, are examined to assess their suitability for applications involving temperature variations. The hardest and greatest tensile yield strength aluminium alloy is the heat-treated AA7075 alloy. Composites’ thermal conductivity declined as the quantity of reinforcement grew because reinforcements low thermal conductivity values made them less efficient.
ISSN:2250-2122
2250-2130
DOI:10.1007/s40033-023-00614-3