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dc.creatorL. Malcher
dc.creatorF. M. Andrade Pires
dc.creatorJ. M. A. César de Sá
dc.creatorF. X. C. Andrade
dc.description.abstractThis paper describes an efficient numerical integration algorithm of a new model for metal plasticity and fracture [2]. The constitutive equations of the material model critically include both the effect of pressure through the triaxiality ratio and the effect of third deviatoric stress invariant through the lode angle in the description of material. The necessary steps required to implement the model within an implicit quasi-static finite element environment are discussed. In particular, the stress update procedure, which is based on the so-called operator split concept resulting in the standard elastic predictor/return mapping algorithm, and the computation of tangent matrix consistent with the stress update are described. Finally, the convergence for large increments is illustrated and iso-error maps are used to analyse the accuracy and stability of the integration algorithm. The simulation of a cylindrical notched bar specimen subjected to tension [1] is presented to illustrate the robustness of the proposed algorithm.
dc.subjectEngenharia de materiais, Outras ciências da engenharia e tecnologias
dc.subjectMaterials engineering, Other engineering and technologies
dc.titleNumerical integration algorithm of a new model for metal plasticity and fractura including pressure and lode angle dependence
dc.typeArtigo em Revista Científica Internacional
dc.contributor.uportoFaculdade de Engenharia
dc.subject.fosCiências da engenharia e tecnologias::Outras ciências da engenharia e tecnologias
dc.subject.fosEngineering and technology::Other engineering and technologies
Appears in Collections:FEUP - Artigo em Revista Científica Internacional

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