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Analysis of higherature flexural behaviour of copper-alumina micro-and nanocomposites
Date Issued
01-06-2019
Author(s)
Dash, Khushbu
Abstract
Copper (Cu)-based composites were studied for their higherature mechanical response. Copper is a high temperature-high strength material when combined with harder reinforcements, which find applications in engine components. Higherature flexural testing of copper-alumina (Al2O3) micro-and nanocomposites fabricated by powder metallurgy was carried out at temperatures of 100 and 250°C. The composition of micro-and nanocomposites varied as 5, 10 and 20 vol.% and 1, 3 and 5 vol.%, respectively. The variation in the flexural strength of the composites at higherature testing is reported and compared with the ambient test values here, and, subsequently, deformation mechanisms of the composites are discussed. Fractography was performed to predict the mode of failure. The ductile mode of failure in microcomposites is contradictory to quasicleavage in nanocomposites. Nanocomposites show higher flexural strength at 100°C compared to microcounterparts. Interfacial de-cohesion and particle pull out are the results of the thermal gradient across the matrix to the reinforcement.
Volume
8