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.
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Dynamic recrystallization in AZ31 magnesium alloy
TL;DR: In this article, the effects of temperature and strain rate on the microstructural evolution of AZ31 magnesium alloy were studied, and the results indicated that the amount and the size of dynamically recrystallized grains are increased as Zener-Hollomon parameter decreased.
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Variant selection and intervariant crystallographic planes distribution in martensite in a Ti-6Al-4V alloy
TL;DR: In this article, the transformation texture was studied in a Ti-6Al-4V alloy for two microstructures produced through different phase transformation mechanisms (i.e. diffusional vs. displacive).
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Orientation dependence of twinning and strain hardening behaviour of a high manganese twinning induced plasticity steel with polycrystalline structure
TL;DR: In this article, a combination of tensile mechanical properties was shown to be a result of complex dynamic strain-induced microstructural reactions, including dislocation glide, dislocation dissociation, stacking fault formation, dynamic recovery, mechanical twinning and dynamic strain ageing.
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Dynamic Recrystallization of Austenite in Ni-30 Pct Fe Model Alloy: Microstructure and Texture Evolution
TL;DR: In this paper, the microstructure and crystallographic texture development in an austenitic Ni-30 pct Fe model alloy was investigated within the dynamic recrystallization (DRX) regime using hot torsion testing.
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The relative grain boundary area and energy distributions in a ferritic steel determined from three-dimensional electron backscatter diffraction maps
Hossein Beladi,Gregory S. Rohrer +1 more
TL;DR: In this article, the relative grain boundary area and energy distributions of a ferritic steel were characterized as a function of lattice misorientation and boundary plane orientation using focused ion beam serial sectioning combined with electron backscatter diffraction.