Size effect on void coalescence under intense shear
From MaRDI portal
Publication:1982320
DOI10.1016/j.euromechsol.2021.104329zbMath1484.74070OpenAlexW3168438925MaRDI QIDQ1982320
Publication date: 8 September 2021
Published in: European Journal of Mechanics. A. Solids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.euromechsol.2021.104329
ductile failureplastic flow localizationfinite strain gradient plasticityFleck-Willis materialvoid micro-collapse
Anelastic fracture and damage (74R20) Large-strain, rate-independent theories of plasticity (including nonlinear plasticity) (74C15)
Cites Work
- Strain gradient effects on cyclic plasticity
- A mathematical basis for strain-gradient plasticity theory. I: Scalar plastic multiplier
- Rupture mechanisms in combined tension and shear--experiments
- A mathematical basis for strain-gradient plasticity theory. II: Tensorial plastic multiplier
- Behaviour of voids in a shear field
- Finite-element formulations for problems of large elastic-plastic deformation
- The size effect on void growth in ductile materials.
- Indentation size effects in crystalline materials: a law for strain gradient plasticity
- The correlation of the indentation size effect measured with indenters of various shapes
- A unified treatment of strain gradient plasticity
- Shear deformation of voids with contact modelled by internal pressure
- Rupture mechanisms in combined tension and shear-Micromechanics
- A finite strain FE-implementation of the Fleck-Willis gradient theory: rate-independent versus visco-plastic formulation
- Investigation of a gradient enriched Gurson-Tvergaard model for porous strain hardening materials
- Failure by void coalescence in metallic materials containing primary and secondary voids subject to intense shearing
- Modification of the Gurson model for shear failure
- A theoretical approach of strain localization within thin planar bands in porous ductile materials
- Void growth to coalescence in a non-local material
- Material Failure by Void Growth to Coalescence
- An extended model for void growth and coalescence
This page was built for publication: Size effect on void coalescence under intense shear
