Title of article
Anisotropic damage–plasticity model for concrete
Author/Authors
George Z. Voyiadjis، نويسنده , , Ziad N. Taqieddin، نويسنده , , Peter I. Kattan، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
20
From page
1946
To page
1965
Abstract
A material model for concrete is proposed here within the framework of a thermodynamically consistent elasto-plasticity–damage theory. Two anisotropic damage tensors and two damage criteria are adopted to describe the distinctive degradation of the mechanical properties of concrete under tensile and compressive loadings. The total stress tensor is decomposed into tensile and compressive components in order to accommodate the need for the above mentioned damage tensors. The plasticity yield criterion presented in this work accounts for the spectral decomposition of the stress tensor and allows multiple hardening rules to be used. This plastic yield criterion is used simultaneously with the damage criteria to simulate the physical behavior of concrete. Non-associative flow rule for the plastic strains is used to account for the dilatancy of concrete as a frictional material. The thermodynamic Helmholtz free energy concept is used to consistently derive dissipation potentials for damage and plasticity and to allow evolution laws for different hardening parameters. The evolution of the two damage tensors is accounted for through the use of fracture-energy-based continuum damage mechanics. An expression is derived for the damage–elasto-plastic tangent operator. The theoretical framework of the model is described here while the implementation of this model will be discussed in a subsequent paper.
Keywords
Anisotropic continuum damage mechanics , Concrete plasticity , Thermodynamics , Strain energy equivalence , Damage–elasto-plastic tangent operator
Journal title
International Journal of Plasticity
Serial Year
2008
Journal title
International Journal of Plasticity
Record number
1254526
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