Sage Journals: Discover world-class research

Abstract

To predict the transition from continuous to discontinuous failure modes, a bifurcation analysis is performed based on the continuum tangent stiffness tensor of a coupled plasticity and damage model. As a result, continuum damage and decohesion approaches can be combined for multiscale modelling of material failure.

Keywords

plasticity and damage model decohesion multiscale modelling material failure

Get full access to this article

View all access options for this article.

References

Chen

Continuous and discontinuous failure modes. J. Engng Mechanics, 1996, 122(1), 80–82.

Schreyer

H. L.

Sulsky

D. L.

Zhou

S.-J.

Modeling material failure as a strong discontinuity with the material point method. In Mechanics of Quasi-Brittle Materials and Structures (Ed. Pijaudier-Cabot

Bittnar

Genard

), 1999, pp. 307–329 (Hermes Science Publications, Paris, France).

Chow

C. L.

Wei

On constitutive modeling of material damage for fatigue failure prediction. Int. J. Damage Mechanics, 1999, 8, 355–375.

Lemaitre

Chaboche

J. L.

Mechanics of Solid Materials, 1990 (Cambridge University Press).

Ottosen

N. S.

Runesson

Properties of discontinuous bifurcation solutions in elasto-plasticity. Int. J. Solids Structs, 1991, 27, 401–421.

Iordache

M. M.

William

Localized failure analysis in elastoplastic Cosserat continua. Computer Meth. Appl. Mechanics and Engng, 1998, 151, 559–586.

A study on the link between coupled plasticity and damage and decohesion for multiscale modelling

Abstract

Abstract

Keywords

Get full access to this article

References