Add to ORKGA Fe-30wt%Ni based alloy, retaining a stable austenitic structure at room temperature, was used for modelling the development of austenite microstructure during hot deformation of conventional carbon-manganese steels. A series of plane-strain compression (PSC) tests were carried out at 950degreesC and a strain rate of 10s-1 to several strain levels. Evolution of the grain structure, crystallographic texture and dislocation substructure was characterised in detail using light microscopy, electron back-scatter diffraction (EBSD) and transmission electron microscopy (TEM)
The microstructure evolution of a martensitic Stainless steel subjected to hot compression is simula...
The present work describes a hybrid modeling approach developed for predicting the flow behavior, re...
In the current study, the microstructure and texture characteristics of a model Ni-30Fe austenitic a...
The development of physically-based models of microstructural evolution during hot deformation of me...
The microstructural evolutions of Ni-30Fe alloys during hot deformation are investigated. Hot-deform...
The evolution of structure during the hot working of an austenitic Ni-30%Fe alloy is studied using E...
The development of physically-based models of microstructural evolution during thermomechanical proc...
The deformation behavior of lightweight Fe-35Mn-10Al-1C steel with an elevated concentration of Mn w...
The aim of the present investigation was to determine the orientation dependence of substructure cha...
The hot deformation behavior of a newly designed Fe–5Mn–3Al–0.1C (wt.%) medium manganese steel was i...
The present work describes a hybrid modeling approach developed for predicting the flow behavior, re...
In this thesis, the effects of strain path reversal on microstructure evolution, in terms of austeni...
The studies of the influence of processing parameters and the effect of Nb content (from 0 to 1.4 wt...
In the present work, the room temperature work hardening behavior and substructure evolution of Fe–1...
The work presents a detailed investigation of the microstructure characteristics of the (111) orient...
The microstructure evolution of a martensitic Stainless steel subjected to hot compression is simula...
The present work describes a hybrid modeling approach developed for predicting the flow behavior, re...
In the current study, the microstructure and texture characteristics of a model Ni-30Fe austenitic a...
The development of physically-based models of microstructural evolution during hot deformation of me...
The microstructural evolutions of Ni-30Fe alloys during hot deformation are investigated. Hot-deform...
The evolution of structure during the hot working of an austenitic Ni-30%Fe alloy is studied using E...
The development of physically-based models of microstructural evolution during thermomechanical proc...
The deformation behavior of lightweight Fe-35Mn-10Al-1C steel with an elevated concentration of Mn w...
The aim of the present investigation was to determine the orientation dependence of substructure cha...
The hot deformation behavior of a newly designed Fe–5Mn–3Al–0.1C (wt.%) medium manganese steel was i...
The present work describes a hybrid modeling approach developed for predicting the flow behavior, re...
In this thesis, the effects of strain path reversal on microstructure evolution, in terms of austeni...
The studies of the influence of processing parameters and the effect of Nb content (from 0 to 1.4 wt...
In the present work, the room temperature work hardening behavior and substructure evolution of Fe–1...
The work presents a detailed investigation of the microstructure characteristics of the (111) orient...
The microstructure evolution of a martensitic Stainless steel subjected to hot compression is simula...
The present work describes a hybrid modeling approach developed for predicting the flow behavior, re...
In the current study, the microstructure and texture characteristics of a model Ni-30Fe austenitic a...