M
M. Taherishargh
Researcher at University of Newcastle
Publications - 22
Citations - 1079
M. Taherishargh is an academic researcher from University of Newcastle. The author has contributed to research in topics: Syntactic foam & Microstructure. The author has an hindex of 16, co-authored 22 publications receiving 888 citations. Previous affiliations of M. Taherishargh include Newcastle University & Amirkabir University of Technology.
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Investigation of mechanical properties of Cu/SiC composite fabricated by FSP: Effect of SiC particles’ size and volume fraction
TL;DR: In this paper, the authors investigated the structural, mechanical properties and wear resistance of FSP-processed materials as a function of volume fraction of SiC particles and found that adding micro-and nano-sized particles decreases the tensile strength and percent elongation.
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Low-density expanded perlite–aluminium syntactic foam
TL;DR: In this article, an innovative syntactic foam (SF) formed by counter-gravity infiltration of a packed bed of low-cost expanded perlite (EP) particles with molten A356 aluminium is presented.
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Dynamic compressive loading of expanded perlite/aluminum syntactic foam
TL;DR: In this paper, the analysis of expanded perlite/aluminum (EP/A356) syntactic foams under dynamic compressive loading conditions was conducted in order to determine compressive stress-strain response, effective material properties and deformation mechanisms.
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Effects of SiC Particle Size and Process Parameters on the Microstructure and Hardness of AZ91/SiC Composite Layer Fabricated by FSP
TL;DR: In this article, the effects of rotational and traverse speeds and the FSP pass number on the microstructure and microhardness of the friction stir processed (FSPed) layer with and without SiC particles were investigated using optical microscopy and scanning electron microscopy (SEM).
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On the mechanical properties of heat-treated expanded perlite–aluminium syntactic foam
TL;DR: In this paper, the impact of heat treatment on microstructure characteristics, mechanical properties, deformation behavior, and cell wall fracture mechanism are investigated, where a syntactic foam is fabricated by counter-gravity infiltrating packed bed of expanded perlite particles with A356 aluminium alloy.