Application of distortional plasticity framework to EDDQ and TRIP steel sheets: prediction of latent hardening and its influence on springback
DOI10.1016/j.euromechsol.2024.105311zbMATH Open1544.74011MaRDI QIDQ6558133
Shin-Yeong Lee, Frédéric Barlat
Publication date: 18 June 2024
Published in: European Journal of Mechanics. A. Solids (Search for Journal in Brave)
finite element methodsheet metal formingexperimental validationcross loadinghomogeneous anisotropic hardeningpressure-dependent yield condition
Finite element methods applied to problems in solid mechanics (74S05) Experimental work for problems pertaining to mechanics of deformable solids (74-05) Large-strain, rate-independent theories of plasticity (including nonlinear plasticity) (74C15)
Cites Work
- An alternative to kinematic hardening in classical plasticity
- A model of large-strain cyclic plasticity and its application to springback simulation
- A practical two-surface plasticity model and its application to spring-back prediction
- Elastic-plastic behaviour of dual-phase, high-strength steel under strain-path changes
- Time-independent constitutive theories for cyclic plasticity
- Elastic-plastic behavior of steel sheets under in-plane cyclic tension-compression at large strain
- Spring-back evaluation of automotive sheets based on isotropic-kinematic hardening laws and non-quadratic anisotropic yield functions. I: Theory and formulation
- Plane stress yield function for aluminum alloy sheets. I: Theory.
- Numerical integration algorithm of updated homogeneous anisotropic hardening model through finite element framework
- Efficient and robust stress integration algorithm for anisotropic distortional hardening law under cross-loading with latent hardening
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