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Convex optimization and limit analysis: Application to Gurson and porous Drucker-Prager materials |
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| Authors: | F. Pastor E. Loute J. Pastor M. Trillat |
| Affiliation: | a Facultés Universitaires Saint-Louis, Bld. Jardin Botanique 43, 1000 Brussels, Belgium b Laboratoire “Optimisation de la Conception et Ingénierie de l’Environnement” (LOCIE), Campus scientifique, 73376 Le Bourget du Lac, France c “Center for Operations Research and Econometrics” (CORE), Université Catholique de Louvain, 34 voie du Roman Pays, 1348 Louvain-la-Neuve, Belgium |
| Abstract: | First, we summarize our convex optimization method to solve the static approach of limit analysis. Then, we present the main features of a quadratic extension of a recently proposed mixed finite element method of the kinematic approach. Both methods are applied to obtain precise solutions to a forming problem with Gurson and Drucker-Prager materials. Finally, in order to analyze the criterion of “Porous Drucker-Prager” materials, the Gurson micro-macro model involving a Drucker-Prager matrix containing cylindrical cavities is investigated. Comparing previous results shows, among other things, a similarity in the compression case not always observed for the “Porous von Mises” material between cylindrical and spherical cases. |
| Keywords: | Porous material Gurson model Limit analysis Convex optimization Polymer |
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