An elasto-plastic damage model for concrete

E. Lale*, M. Aydoǧan

*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

Constitutive modeling of concrete using continuum damage mechanics and plasticity theory is presented in this work. In order to derive the constitutive equations the strain equivalence hypothesis is adopted. Menetrey-William type yield function (in the effective stress space) with multiple hardening functions is used to define plastic loading of the material. Non-associated plastic flow rule is used to control inelastic dilatancy. Drucker- Prager type function is chosen as a plastic potential. Damage is assumed to be isotropic and two damage variables are used to represent tensile and compressive damage independently. Damage parameter is driven based on the plastic strain. Fully implicit integration scheme is employed and the consistent elastic-plastic-damage tangent operator is also derived. The overall performance of the proposed model is verified by comparing the model predictions to various numerical simulations, cyclic uniaxial tensile and compressive tests, monotonic biaxial compression test and reinforced concrete beam test.

Original languageEnglish
Title of host publicationComputational Plasticity XI - Fundamentals and Applications, COMPLAS XI
Pages1584-1595
Number of pages12
Publication statusPublished - 2011
Event11th International Conference on Computational Plasticity, COMPLAS XI - Barcelona, Spain
Duration: 7 Sept 20119 Sept 2011

Publication series

NameComputational Plasticity XI - Fundamentals and Applications, COMPLAS XI

Conference

Conference11th International Conference on Computational Plasticity, COMPLAS XI
Country/TerritorySpain
CityBarcelona
Period7/09/119/09/11

Keywords

  • Computational plasticity
  • Concrete
  • Constitutive modeling
  • Damage mechanics

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