H
Hossein Beladi
Researcher at Deakin University
Publications - 179
Citations - 4502
Hossein Beladi is an academic researcher from Deakin University. The author has contributed to research in topics: Austenite & Ferrite (iron). The author has an hindex of 32, co-authored 168 publications receiving 3459 citations. Previous affiliations of Hossein Beladi include University of Wollongong & Geelong Football Club.
Papers
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Role of microstructure in the low cycle fatigue of multi-phase steels
TL;DR: In this paper, the effects of cyclic deformation on the microstructures were analysed using electron backscattered diffraction (EBSD) and X-ray diffraction(XRD).
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Constitutive analysis of hot deformation behavior of a Ti6Al4V alloy using physical based model
TL;DR: In this paper, the effect of deformation parameters on the flow behavior of a Ti6Al4V alloy has been studied to understand the deformation mechanisms during hot compression, and the physically based Estrin and Mecking (EM) model for the work hardening/dynamic recovery combined with the Avrami equation for dynamic recrystallization was used to predict the flow stress at varying process conditions.
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Constitutive Modeling of the Tensile Behavior of Al-TWIP Steel
Jin-Kyung Kim,Yuri Estrin,Yuri Estrin,Hossein Beladi,Ilana Timokhina,Kwang-Geun Chin,Sung-Kyu Kim,Bruno C. De Cooman +7 more
TL;DR: In this paper, the microstructure evolution and strain-hardening behavior of Fe18Mn0.6C1.5Al TWIP steel in uniaxial tension were examined.
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On the work-hardening behaviour of a high manganese TWIP steel at different deformation temperatures
TL;DR: In this article, the work-hardening behavior of a high manganese TWIP steel was investigated at different deformation temperatures, and four distinct stages observed in the workhardening behaviour as a result of complex dynamic strain induced microstructural reactions consisted of dynamic recovery, dislocation dissociation, stacking fault formation, mechanical twining and dynamic strain aging.
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Evolution of strain-induced precipitates in a model austenitic Fe–30Ni–Nb steel and their effect on the flow behaviour
TL;DR: In this article, the authors investigated the evolution of strain-induced NbC precipitates in a model austenitic Fe-30Ni-Nb steel deformed at 925°C to a strain of 0.2 during post-deformation holding between 3 and 1000s and their effect on the reloading flow stress.