文件名称:UMAT_SMA_BENJABER_ET_AL
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This an Abaqus user material subroutine UMAT in fortran language of a new 3D strain based constitutive model for shape emory alloys developped by Ben Jaber and coauthors in 2008 [1] and improved recently by Ben Jaber 2014 [2]
This subroutine in Fortran language allows users to simulate thermomechanical behaviors of SMA products. More details about material parameters and internal variables are availables in The file UMAT_SMA_benjaber_ET_AL_ReadMe.pdf .
[1] Ben Jaber M, Smaoui H and Terriault P (2008) Finite element analysis of a shape memory alloy three-dimensional beam based on a finite strain descr iption Smart materials and structures 17(4), 045005.
[2] Ben Jaber M (2014) Numerical implementation of a 3D strain-based constitutive model for shape memory alloys under a finite strain descr iption Submitted to Smart materials and structures.
-This is an Abaqus user material subroutine UMAT in fortran language of a new 3D strain based constitutive model for shape emory alloys developped by Ben Jaber and coauthors in 2008 [1] and improved recently by Ben Jaber 2014 [2]
This subroutine in Fortran language allows users to simulate thermomechanical behaviors of SMA products. More details about material parameters and internal variables are availables in The file UMAT_SMA_benjaber_ET_AL_ReadMe.pdf .
[1] Ben Jaber M, Smaoui H and Terriault P (2008) Finite element analysis of a shape memory alloy three-dimensional beam based on a finite strain descr iption Smart materials and structures 17(4), 045005.
[2] Ben Jaber M (2014) Numerical implementation of a 3D strain-based constitutive model for shape memory alloys under a finite strain descr iption Submitted to Smart materials and structures.
This subroutine in Fortran language allows users to simulate thermomechanical behaviors of SMA products. More details about material parameters and internal variables are availables in The file UMAT_SMA_benjaber_ET_AL_ReadMe.pdf .
[1] Ben Jaber M, Smaoui H and Terriault P (2008) Finite element analysis of a shape memory alloy three-dimensional beam based on a finite strain descr iption Smart materials and structures 17(4), 045005.
[2] Ben Jaber M (2014) Numerical implementation of a 3D strain-based constitutive model for shape memory alloys under a finite strain descr iption Submitted to Smart materials and structures.
-This is an Abaqus user material subroutine UMAT in fortran language of a new 3D strain based constitutive model for shape emory alloys developped by Ben Jaber and coauthors in 2008 [1] and improved recently by Ben Jaber 2014 [2]
This subroutine in Fortran language allows users to simulate thermomechanical behaviors of SMA products. More details about material parameters and internal variables are availables in The file UMAT_SMA_benjaber_ET_AL_ReadMe.pdf .
[1] Ben Jaber M, Smaoui H and Terriault P (2008) Finite element analysis of a shape memory alloy three-dimensional beam based on a finite strain descr iption Smart materials and structures 17(4), 045005.
[2] Ben Jaber M (2014) Numerical implementation of a 3D strain-based constitutive model for shape memory alloys under a finite strain descr iption Submitted to Smart materials and structures.
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下载文件列表
3DBEAM-SUPERELASTICITY-BENJABER.inp
3DBEAM_traction-SME-BENJABER.inp
3DSTENT-SME-BENJABER.inp
UMAT_SMA_BENJABER_ET_AL.for
UMAT_SMA_benjaber_ET_AL_ReadMe.pdf