Add to ORKGShape memory alloys (SMAs) are exploited in several innovative applications such as biocompatible actuators experiencing up to large number of cyclic loads. However, the description of the SMA cyclic response is still incomplete. The present work is devoted to propose a 3D model based on the thermodynamical coupling of different strain mechanisms such as the forward and reverse phase transformation, the martensitic reorientation, the transformation-introduced plasticity and fatigue damage
Many models have been developed for simulation of shape memory alloy (SMA) constitutive responses. T...
Shape Memory Alloys (SMAs) are a class of smart materials that possess two salient features known as...
This paper presents a new phenomenological constitutive model for shape memory alloys, developed wit...
The present work proposes a 3D model, based on the thermodynamical coupling of different strain mech...
In this work, a constitutive model is developed that describe the behavior of shape memory alloys un...
In this work, a constitutive model is developed that describe the behavior of shape memory alloys un...
In the present study, a new 3D thermodynamic coupled model is proposed for SMAs. The behavior of SMA...
In the present study, a new 3D thermodynamic coupled model is proposed for SMAs. The behavior of SMA...
A three-dimensional constitutive model is developed that describes the behavior of shape memory allo...
A three-dimensional constitutive model is developed that describes the behavior of shape memory allo...
AbstractThis paper presents a unified modelling effort to describe partial phase transformation duri...
This paper presents a unified modelling effort to describe partial phase transformation during cycli...
This paper presents a unified modelling effort to describe partial phase transformation during cycli...
A constitutive model to describe macroscopic elastic and transformation behaviors of polycrystalline...
A constitutive model to describe macroscopic elastic and transformation behaviors of polycrystalline...
Many models have been developed for simulation of shape memory alloy (SMA) constitutive responses. T...
Shape Memory Alloys (SMAs) are a class of smart materials that possess two salient features known as...
This paper presents a new phenomenological constitutive model for shape memory alloys, developed wit...
The present work proposes a 3D model, based on the thermodynamical coupling of different strain mech...
In this work, a constitutive model is developed that describe the behavior of shape memory alloys un...
In this work, a constitutive model is developed that describe the behavior of shape memory alloys un...
In the present study, a new 3D thermodynamic coupled model is proposed for SMAs. The behavior of SMA...
In the present study, a new 3D thermodynamic coupled model is proposed for SMAs. The behavior of SMA...
A three-dimensional constitutive model is developed that describes the behavior of shape memory allo...
A three-dimensional constitutive model is developed that describes the behavior of shape memory allo...
AbstractThis paper presents a unified modelling effort to describe partial phase transformation duri...
This paper presents a unified modelling effort to describe partial phase transformation during cycli...
This paper presents a unified modelling effort to describe partial phase transformation during cycli...
A constitutive model to describe macroscopic elastic and transformation behaviors of polycrystalline...
A constitutive model to describe macroscopic elastic and transformation behaviors of polycrystalline...
Many models have been developed for simulation of shape memory alloy (SMA) constitutive responses. T...
Shape Memory Alloys (SMAs) are a class of smart materials that possess two salient features known as...
This paper presents a new phenomenological constitutive model for shape memory alloys, developed wit...