A new SMA shell element based on the corotational formulation
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Publication:487855
DOI10.1007/s00466-014-1061-xzbMath1311.74073OpenAlexW2048312582MaRDI QIDQ487855
Paolo Bisegna, Federica Caselli, Elio Sacco, Sonia Marfia
Publication date: 23 January 2015
Published in: Computational Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00466-014-1061-x
Related Items (4)
Numerical analysis of the magnetic shape memory effect based on the absolute nodal coordinate formulation ⋮ State update algorithm for isotropic elastoplasticity by incremental energy minimization ⋮ An incremental energy minimization state update algorithm for 3D phenomenological internal-variable SMA constitutive models based on isotropic flow potentials ⋮ Modeling large deformations of thin-walled SMA structures by shell finite elements
Uses Software
Cites Work
- A 3D finite strain phenomenological constitutive model for shape memory alloys considering martensite reorientation
- A finite strain kinematic hardening constitutive model based on Hencky strain: general framework, solution algorithm and application to shape memory alloys
- Exact corotational shell for finite strains and fracture
- A unified formulation of small-strain corotational finite elements. I: Theory
- Geometrically nonlinear analysis of shell structures using a flat triangular shell finite element
- Finite rotation analysis and consistent linearization using projectors
- Three-dimensional model for solids undergoing stress-induced phase transformations
- A thermodynamical constitutive model for shape memory materials. I: The monolithic shape memory alloy
- A study of optimal membrane triangles with drilling freedoms.
- Isomorphisms, automorphisms, and generalized involution models of projective reflection groups.
- Reusing linear finite elements in material and geometrically nonlinear analysis -- application to plane stress problems
- On the choice of the linear element for corotational triangular shells
- Phenomenological 3D and 1D consistent models for shape-memory alloy materials
- Finite deformation pseudo-elasticity of shape memory alloys -- constitutive modelling and finite element implementation
- A nonlinear plate finite element formulation for shape memory alloy applications
- Polar decomposition based corotational framework for triangular shell elements with distributed loads
- Shape Memory Alloys
- A 3D SMA constitutive model in the framework of finite strain
- Analysis of SMA composite laminates using a multiscale modelling technique
- An alternative explicit formulation for the DKT plate-bending element
- A return mapping algorithm for plane stress elastoplasticity
- A study of three-node triangular plate bending elements
- A three‐dimensional model describing stress‐temperature induced solid phase transformations: solution algorithm and boundary value problems
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