Damijan Markovic
Électricité de France
16 Papers
248 Citations
Damijan Markovic is an academic researcher from Électricité de France. The author has contributed to research in topics: Finite element method & Scale (ratio). The author has an hindex of 10, co-authored 16 publications. Previous affiliations of Damijan Markovic include University of Colorado Boulder & University of Ljubljana.
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Papers
Strong coupling methods in multi-phase and multi-scale modeling of inelastic behavior of heterogeneous structures
TL;DR: In this article, the authors address several issues pertaining to efficiency of the computational approach geared towards modeling of inelastic behavior of a heterogeneous structure, which is represented by a multi-scale model.
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Multi‐scale modeling of heterogeneous structures with inelastic constitutive behaviour: Part I – physical and mathematical aspects
TL;DR: The paper confirms that one can produce very powerful computational tools by software coupling technology described herein, which allows the class of complex problems one can successfully tackle nowadays to be extended significantly.
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Constitutive model of coupled damage-plasticity and its finite element implementation
Adnan Ibrahimbegovic,Damijan Markovic,Fabrice Gatuingt +2 more
- 01 Jan 2003
TL;DR: In this paper, a general theoretical framework for developing a constitutive model capable of coupling two basic types of inelastic behaviour, plasticity and damage, is presented, which can be adapted to a very wide variety of engineering materials, from metals with voids on one side to concrete compaction on the other side.
Multi‐scale modelling of heterogeneous structures with inelastic constitutive behavior: Part II – software coupling implementation aspects
TL;DR: In this article, the computational tools for solving a strongly coupled multi-scale problem in the context of inelastic structural mechanics are considered, where the finite element method is employed for representing the microstructure at this fine scale and computing the solution.
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Complementary energy based FE modelling of coupled elasto-plastic and damage behavior for continuum microstructure computations
TL;DR: In this paper, a coupled elasto-plastic and damage constitutive model with the stress field as the independent variable is introduced, which enables an efficient use of the complementary variational formulation.
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