A multiphase phase-field study of three-dimensional martensitic twinned microstructures at large strains
DOI10.1007/s00161-022-01177-6zbMath1522.74088arXiv2206.12576MaRDI QIDQ6058668
Valerij I. Levitas, Anup Basak
Publication date: 1 November 2023
Published in: Continuum Mechanics and Thermodynamics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/2206.12576
finite element methodlarge strainsmartensitic transformationscrystallographic solutionmultiphase phase-field approachtwins within twins
Structured surfaces and interfaces, coexistent phases (74A50) Large-strain, rate-independent theories of plasticity (including nonlinear plasticity) (74C15) Analysis of microstructure in solids (74N15)
Cites Work
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- The \texttt{deal.II} library, version 8.4
- A phase-field model for incoherent martensitic transformations including plastic accommodation processes in the austenite
- Finite element simulation of phase field model for nanoscale martensitic transformation
- Geometrically nonlinear higher-gradient elasticity with energetic boundaries
- A phase field model of deformation twinning: nonlinear theory and numerical simulations
- Field theoretic method in phase transformations
- Finite element simulations of martensitic phase transitions and microstructures based on a strain softening model
- Phase field approach to martensitic phase transformations with large strains and interface stresses
- An upper bound to the free energy of mixing by twin-compatible lamination for \(n\)-variant martensitic phase transformations
- Fine phase mixtures as minimizers of energy
- The thermodynamics of elastic materials with heat conduction and viscosity
- Thermomechanical theory of martensitic phase transformations in inelastic materials
- Theory of repeated superposition of large deformations: Elastic and viscoelastic bodies
- A microstructure of martensite which is not a minimiser of energy: The \(X\)-interface
- Continuum modeling of twinning, amorphization, and fracture: theory and numerical simulations
- A phase field concept for multiphase systems
- Finite element procedure and simulations for a multiphase phase field approach to martensitic phase transformations at large strains and with interfacial stresses
- Phase-field modeling of multivariant martensitic transformation at finite-strain: computational aspects and large-scale finite-element simulations
- Maximum mechano-damage power release-based phase-field modeling of mass diffusion in damaging deformable solids
- Phase field approach with anisotropic interface energy and interface stresses: large strain formulation
- Nanoscale multiphase phase field approach for stress- and temperature-induced martensitic phase transformations with interfacial stresses at finite strains
- Rate-independent dissipation in phase-field modelling of displacive transformations
- An extended Coleman-Noll procedure for generalized continuum theories
- On the modeling of equilibrium twin interfaces in a single-crystalline magnetic shape memory alloy sample. I: Theoretical formulation
- A MultiPhase Field Concept: Numerical Simulations of Moving Phase Boundaries and Multiple Junctions
- The effect of a pre-existing nanovoid on martensite formation and interface propagation: a phase field study
- An exact formulation for exponential-logarithmic transformation stretches in a multiphase phase field approach to martensitic transformations
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