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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Journal ArticleDOI
Ion irradiation response and mechanical behavior of reduced activity high entropy alloy
Maryam Sadeghilaridjani,Aditya Ayyagari,Saideep Muskeri,Vahid Hasannaeimi,Riyadh Salloom,Wei-Ying Chen,Sundeep Mukherjee +6 more
TL;DR: In this paper, an ion irradiation response was studied for a newly developed refractory high entropy alloy, HfTaTiVZr, with low activation constituent elements.
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Small-scale mechanical behavior of a eutectic high entropy alloy.
TL;DR: Results will pave the way for fundamental understanding of phase-specific contribution to bulk mechanical response of concentrated alloys and help in designing structural materials with high fracture toughness.
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High temperature wear behavior of refractory high entropy alloys based on 4-5-6 elemental palette
TL;DR: In this article, the sliding and reciprocating behavior of two newly developed RHEAs, namely HfTaTiVZr and TaTiVWZr, based on 4-5-6 elemental palette were investigated from 298-K to 723-K against Si3N4 counterface and compared with stainless steel.
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Review of Powder Bed Fusion Additive Manufacturing for Metals
TL;DR: The main technology currently used by numerous companies in the aerospace and biomedical sectors to fabricate metallic parts is powder bed technology, in which either electron or laser beams are used to melt and fuse the powder particles line by line to make a three-dimensional part as mentioned in this paper.
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Activation Volume and Energy for Dislocation Nucleation in Multi-Principal Element Alloys
TL;DR: In this article, the activation energy and activation volume were determined using a statistical approach of analyzing the “pop-in” load marking incipient plasticity in multi-principal element alloys, including CoCrNi, CoCrFeMnNi, and Al0.1CoCrFeNi.