Multi-scale modelling of AISI H11 martensitic tool steel surface anisotropic mechanical behaviour

Ahmed Zouaghi 1 Vincent Velay 1 Adriana Soveja 1 Farhad Rezai-Aria 1
1 ICA - Institut Clément Ader
Abstract : In this work, a numerical investigation is carried out on the anisotropic and heterogeneous behaviour of the AISI H11 martensitic tool steel surface using finite element method and a multi- scale approach. An elasto- viscoplastic model that considers nonlinear isotropic and kinematic hardenings is implemented in the finite elements code ABAQUS using small strain assumption. The parameters of the constitutive equations are identified using macroscopic quasi- static and cyclic material responses by the mean of a localization rule. Virtual realistic microstructures, consisting of laths and grains, are generated using particular Voronoi tessellations. These microstructures consider the specific crystallographic orientations alpha'/gamma Finite element investigation is then performed. The local heterogeneous and anisotropic behaviour of the surface as well as the subsurface is shown under quasi- static and cyclic mechanical loadings. The laths morphology and crystallographic orientation have an important impact on the local mechanical fields.
Type de document :
Communication dans un congrès
Buffiere, JY and Brune, M and Morel, F and Nadot, Y. FDMD II - JIP 2014 - FATIGUE DESIGN & MATERIAL DEFECTS, Jun 2014, Paris, France. 12, art. 04018 - 2 p., 2014, MATEC Web of Conferences. 〈http://www.matec-conferences.org/articles/matecconf/pdf/2014/03/matecconf_fdmd2014_04018.pdf〉. 〈10.1051/matecconf/20141204018〉
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https://hal.archives-ouvertes.fr/hal-01611985
Contributeur : Mines Albi Ecole Nationale Supérieure Des Mines d'Albi-Carmaux <>
Soumis le : vendredi 6 octobre 2017 - 13:32:30
Dernière modification le : lundi 23 juillet 2018 - 11:10:03

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ICA-ALBI | UNIV-TLSE3 | INSA-TOULOUSE | ICA

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Ahmed Zouaghi, Vincent Velay, Adriana Soveja, Farhad Rezai-Aria. Multi-scale modelling of AISI H11 martensitic tool steel surface anisotropic mechanical behaviour. Buffiere, JY and Brune, M and Morel, F and Nadot, Y. FDMD II - JIP 2014 - FATIGUE DESIGN & MATERIAL DEFECTS, Jun 2014, Paris, France. 12, art. 04018 - 2 p., 2014, MATEC Web of Conferences. 〈http://www.matec-conferences.org/articles/matecconf/pdf/2014/03/matecconf_fdmd2014_04018.pdf〉. 〈10.1051/matecconf/20141204018〉. 〈hal-01611985〉

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