M
M.J. Hadianfard
Researcher at Shiraz University
Publications - 52
Citations - 1170
M.J. Hadianfard is an academic researcher from Shiraz University. The author has contributed to research in topics: Microstructure & Nanocrystalline material. The author has an hindex of 21, co-authored 46 publications receiving 998 citations. Previous affiliations of M.J. Hadianfard include University of Sydney.
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Journal ArticleDOI
Surface modification of stainless steel orthopedic implants by sol-gel ZrTiO4 and ZrTiO4-PMMA coatings.
Erfan Salahinejad,M.J. Hadianfard,Digby D. Macdonald,S Sharifi Asl,Masoud Mozafari,Kenneth J. Walker,A Tahmasbi Rad,Sundararajan V. Madihally,Daryoosh Vashaee,Lobat Tayebi +9 more
TL;DR: The ZrTiO4-based sol-gel films can be considered to improve the biocompatibility of metallic implants and despite the higher corrosion protection by the hybrid coating, the sample coated with the inorganic thin film exhibits a better cell response, suggesting the domination of wettability.
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Microstructural phase evaluation of high-nitrogen Fe–Cr–Mn alloy powders synthesized by the mechanical alloying process
TL;DR: In this paper, the formation of Fe18Cr8MnxN alloys by mechanical alloying of the elemental powder mixtures was investigated by running the milling process under nitrogen and argon gas atmospheres.
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Effects of strain rate on mechanical properties and failure mechanism of structural Al–Mg alloys
TL;DR: In this paper, the effects of strain rate on the mechanical properties and failure mechanism of AA5754 and AA5182 sheets were investigated and the results obtained show that the studied alloys exhibit negative strain rate sensitivity at quasi-static rates, but mild positive sensitivity at dynamic rates.
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Microwave-assisted synthesis of graphene modified CuO nanoparticles for voltammetric enzyme-free sensing of glucose at biological pH values
TL;DR: The results revealed that the modified GCE has a fast and selective linear response to glucose at pH 13 that covers the 0.21 μM low detection limit, and the presence of graphene nanosheets results in an improved sensitivity which is to 700 μA mM−1 cm−2.
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In vitro electrochemical corrosion and cell viability studies on nickel-free stainless steel orthopedic implants.
Erfan Salahinejad,M.J. Hadianfard,Digby D. Macdonald,Digby D. Macdonald,Samin Sharifi-Asl,Masoud Mozafari,Masoud Mozafari,Kenneth J. Walker,Armin Tahmasbi Rad,Sundararajan V. Madihally,Lobat Tayebi,Lobat Tayebi +11 more
TL;DR: The corrosion and cell viability behaviors of nanostructured, nickel-free stainless steel implants were studied and compared with AISI 316L and the electrochemical behavior is affected by a compromise among the specimen's structural characteristics, comprising composition, density, and grain size.