M
Maryam Sadeghilaridjani
Researcher at University of North Texas
Publications - 26
Citations - 457
Maryam Sadeghilaridjani is an academic researcher from University of North Texas. The author has contributed to research in topics: Amorphous metal & High entropy alloys. The author has an hindex of 8, co-authored 22 publications receiving 176 citations. Previous affiliations of Maryam Sadeghilaridjani include Tohoku University.
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Strain rate sensitivity of a novel refractory high entropy alloy: Intrinsic versus extrinsic effects
TL;DR: In this article, the intrinsic versus extrinsic effects in rate sensitivity were evaluated for fundamental understanding of the differences in loading condition for reduced activity refractory alloys for next generation nuclear applications for safe and efficient post-service recycling.
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Biocompatible High Entropy Alloys with Excellent Degradation Resistance in a Simulated Physiological Environment
Jibril Shittu,Mayur Pole,Irsalan Cockerill,Maryam Sadeghilaridjani,L. Vinod Kumar Reddy,Geetha Manivasagam,Harpreet Singh,Harpreet Singh Grewal,Harpreet Singh Arora,Sundeep Mukherjee +9 more
TL;DR: The results pave the way for utilizing the unique combination of tribo-corrosion resistance, excellent mechanical properties, and biocompatibility of MoNbTaTiZr high entropy alloy to develop bioimplants with improved service life and lower risk of implant induced cytotoxicity in the host body.
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Deformation and tribological behavior of ductile refractory high-entropy alloys
Maryam Sadeghilaridjani,Mayur Pole,Shristy Jha,Saideep Muskeri,Nandita Ghodki,Sundeep Mukherjee +5 more
TL;DR: In this article, the temperature dependence of strain rate sensitivity and wear behavior was evaluated for two refractory high-entropy alloys, namely HfNbTiZr and HfNsbTaTiZR.
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Hot corrosion behavior of refractory high entropy alloys in molten chloride salt for concentrating solar power systems
TL;DR: In this paper, the corrosion behavior of two recently developed refractory high entropy alloys, namely TaTiVWZr and HfTaTiVZr, was studied in molten 33NaCl-22KCl-45MgCl2 (wt. %) eutectic salt at 450°C and 650°C, using potentiodynamic polarization technique.
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High-Temperature Nano-Indentation Creep of Reduced Activity High Entropy Alloys Based on 4-5-6 Elemental Palette
TL;DR: Smaller creep displacement and higher activation energy for the two high entropy alloys indicate superior creep resistance compared to refractory pure metals like tungsten.