Hamed Mirzadeh focuses on Metallurgy, Dynamic recrystallization, Hot working, Flow stress and Deformation. His Metallurgy study frequently links to other fields, such as Composite material. His Dynamic recrystallization research is multidisciplinary, relying on both Stress and Strain hardening exponent.
He has researched Hot working in several fields, including Zener–Hollomon parameter, Strain rate and Thermomechanical processing. The study incorporates disciplines such as Constitutive equation and Microalloyed steel in addition to Flow stress. His Austenite study combines topics from a wide range of disciplines, such as Deformation mechanism and Martensite.
His primary scientific interests are in Metallurgy, Composite material, Microstructure, Martensite and Ultimate tensile strength. His study in Austenite, Grain size, Alloy, Annealing and Hot working is carried out as part of his Metallurgy studies. His research integrates issues of Thermomechanical processing, Dynamic recrystallization, Constitutive equation and Flow stress in his study of Hot working.
His Dynamic recrystallization research focuses on Deformation and how it relates to Stress and Work hardening. His Microstructure study incorporates themes from Carbon steel and Plasticity. His research in the fields of Dual-phase steel overlaps with other disciplines such as Metastability.
Hamed Mirzadeh mainly focuses on Metallurgy, Composite material, Microstructure, Martensite and Annealing. As part of the same scientific family, Hamed Mirzadeh usually focuses on Martensite, concentrating on Plasticity and intersecting with Shear, Strain rate and Deformation. His Annealing study integrates concerns from other disciplines, such as Temperature cycling, Activation energy, Austenitic stainless steel and Austenite.
The Grain size study combines topics in areas such as Alloy and Grain boundary. His studies deal with areas such as Deformation mechanism and Constitutive equation as well as Composite number. His Magnesium alloy research incorporates elements of Hot working and Intermetallic.
Hamed Mirzadeh spends much of his time researching Austenite, Martensite, Annealing, Metallurgy and Microstructure. His Austenite study combines topics in areas such as Laves phase, Eutectic system and Superalloy. His research in Martensite tackles topics such as Quenching which are related to areas like Severe plastic deformation and Abnormal grain growth.
His Metallurgy research focuses on Recrystallization and Thermomechanical processing. His work deals with themes such as Alloy, Grain size and Ultimate tensile strength, which intersect with Microstructure. His study focuses on the intersection of Plasticity and fields such as Strain rate with connections in the field of Deformation.
Hot deformation behavior of a medium carbon microalloyed steel
H. Mirzadeh;H. Mirzadeh;J.M. Cabrera;J.M. Prado;A. Najafizadeh.
Materials Science and Engineering A-structural Materials Properties Microstructure and Processing (2011)
Prediction of the critical conditions for initiation of dynamic recrystallization
H. Mirzadeh;A. Najafizadeh.
Materials & Design (2010)
Constitutive relationships for hot deformation of austenite
Hamed Mirzadeh;Hamed Mirzadeh;Jose Maria Cabrera;Abbas Najafizadeh.
Acta Materialia (2011)
EBSD study of a hot deformed austenitic stainless steel
H. Mirzadeh;H. Mirzadeh;J.M. Cabrera;A. Najafizadeh;P.R. Calvillo.
Materials Science and Engineering A-structural Materials Properties Microstructure and Processing (2012)
Transformation-induced plasticity (TRIP) in advanced steels: A review
Maryam Soleimani;Alireza Kalhor;Hamed Mirzadeh.
Materials Science and Engineering A-structural Materials Properties Microstructure and Processing (2020)
Aging kinetics of 17-4 PH stainless steel
H. Mirzadeh;A. Najafizadeh.
Materials Chemistry and Physics (2009)
Flow Curve Analysis of 17-4 PH Stainless Steel under Hot Compression Test
Hamed Mirzadeh;Abbas Najafizadeh;Mohammad Moazeny.
Metallurgical and Materials Transactions A-physical Metallurgy and Materials Science (2009)
Hot deformation behavior, dynamic recrystallization, and physically-based constitutive modeling of plain carbon steels
Sepideh Saadatkia;Hamed Mirzadeh;Jose-Maria Cabrera.
Materials Science and Engineering A-structural Materials Properties Microstructure and Processing (2015)
Constitutive analysis of Mg–Al–Zn magnesium alloys during hot deformation
Mechanics of Materials (2014)
Modeling and Prediction of Hot Deformation Flow Curves
Hamed Mirzadeh;Jose Maria Cabrera;Abbas Najafizadeh.
Metallurgical and Materials Transactions A-physical Metallurgy and Materials Science (2012)
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