A time integration scheme is presented for the martensitic phase transformation model developed in recent theoretical work of Turteltaub and Suiker (A multi-scale thermomechanical model for cubic to tetragonal martensitic phase transformations 2005; Transformation-induced plasticity in ferrous alloys 2005). The phase transformation model can be used for analysing transformation-induced plasticity (TRIP) phenomena in ferrous alloys. The microstructural information for the phase transformation model is provided by the crystallographic theory of martensitic transformations. The transformation characteristics depend on the specific transformation systems activated during a loading process. The time integration scheme is formulated within a fram...
The contribution of the martensitic transformation to the overall stress-strain response of a multip...
A new crystal plasticity model incorporating the mechanically induced martensitic transformation in ...
Abstract. A thermo-mechanically based model is presented that can be used to simulate the interactio...
A time integration scheme is presented for the martensitic phase transformation model developed in r...
The remarkable mechanical engineering properties of many advanced steels, e.g. TRIP steels and metas...
We develop a multiscale thermomechanical model to analyze martensitic phase transformations from a c...
A recently developed thermo-mechanical model [1] is presented that can be used to simulate the inter...
AbstractWe develop a multiscale thermomechanical model to analyze martensitic phase transformations ...
Many advanced steels, such as high strength steels and TRIP steels, owe their excellent combination ...
A three-dimensional finite-element microstructural cell model involving an inclusion of retained aus...
A thermomechanical model is developed within a large deformation setting in order to simulate the in...
The microstructure of multiphase steels assisted by transformation-induced plasticity consists of gr...
PurposeThe purpose of this work is to apply a recently proposed constitutive model for mechanically ...
The contribution of the martensitic transformation to the overall stress-strain response of a multip...
A new crystal plasticity model incorporating the mechanically induced martensitic transformation in ...
Abstract. A thermo-mechanically based model is presented that can be used to simulate the interactio...
A time integration scheme is presented for the martensitic phase transformation model developed in r...
The remarkable mechanical engineering properties of many advanced steels, e.g. TRIP steels and metas...
We develop a multiscale thermomechanical model to analyze martensitic phase transformations from a c...
A recently developed thermo-mechanical model [1] is presented that can be used to simulate the inter...
AbstractWe develop a multiscale thermomechanical model to analyze martensitic phase transformations ...
Many advanced steels, such as high strength steels and TRIP steels, owe their excellent combination ...
A three-dimensional finite-element microstructural cell model involving an inclusion of retained aus...
A thermomechanical model is developed within a large deformation setting in order to simulate the in...
The microstructure of multiphase steels assisted by transformation-induced plasticity consists of gr...
PurposeThe purpose of this work is to apply a recently proposed constitutive model for mechanically ...
The contribution of the martensitic transformation to the overall stress-strain response of a multip...
A new crystal plasticity model incorporating the mechanically induced martensitic transformation in ...
Abstract. A thermo-mechanically based model is presented that can be used to simulate the interactio...