Micromechanical modeling of NiTi shape memory alloys including austenite, R-phase, and martensite
From MaRDI portal
Publication:695897
DOI10.1016/J.CMA.2012.03.027zbMath1253.74070OpenAlexW2035320671MaRDI QIDQ695897
Publication date: 17 December 2012
Published in: Computer Methods in Applied Mechanics and Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.cma.2012.03.027
shape memory alloysconvexificationmartensitic phase transformationsmicromechanical modelingR-phaseniti
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- An upper bound to the free energy of \(n\)-variant polycrystalline shape memory alloys
- Quasiconvexity and relaxation of nonconvex problems in the calculus of variations
- A micromechanical model for pretextured polycrystalline shape-memory alloys including elastic anisotropy
- Stress-induced phase transformations in shape-memory polycrystals
- An upper bound to the free energy of mixing by twin-compatible lamination for \(n\)-variant martensitic phase transformations
- On the calculation of energy-minimizing phase fractions in shape memory alloys
- Fine phase mixtures as minimizers of energy
- The relaxation of a double-well energy
- Shape memory behaviour: Modelling within continuum thermomechanics
- Energetic formulation of multiplicative elasto-plasticity using dissipation distances
- The variational formulation of viscoplastic constitutive updates
- About modelling the shape memory alloy behaviour based on the phase transformation surface identification under proportional loading and anisothermal conditions
- A thermodynamic finite-strain model for pseudoelastic shape memory alloys
- A ‘non-local’ variational approach to the elastic energy minimalization of martensitic polycrystals
- On the relation of a three-well energy
- On the relation between the principle of maximum dissipation and inelastic evolution given by dissipation potentials
- A multi-variant martensitic phase transformation model: Formulation and numerical implementation
This page was built for publication: Micromechanical modeling of NiTi shape memory alloys including austenite, R-phase, and martensite
