M
Mohamed Haboussi
Researcher at University of Paris
Publications - 54
Citations - 661
Mohamed Haboussi is an academic researcher from University of Paris. The author has contributed to research in topics: Finite element method & Constitutive equation. The author has an hindex of 12, co-authored 44 publications receiving 499 citations. Previous affiliations of Mohamed Haboussi include École normale supérieure de Cachan & University of Lorraine.
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Finite element simulation of interactions between pelvic organs: predictive model of the prostate motion in the context of radiotherapy.
TL;DR: Differences in the order of magnitude of the prostate motion predicted by the FE simulations is similar to the measurements done on a deceased person, pointing towards the need for the setting up of direct measurement of the organs mechanical behavior.
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Nonlinear Free Flexural Vibration of Curvilinear Fibre Composite Laminates Using a Higher-Order Element
TL;DR: In this paper, the nonlinear free flexural vibration of thick curvilinear fiber composite laminates is investigated using a higher-order shear flexible eight-noded quadrilateral element.
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Mechanical buckling of curvilinear fibre composite laminate with material discontinuities and environmental effects
TL;DR: In this paper, the buckling characteristics of curvilinear fiber composite laminates exposed to hygrothermal environment were studied. But the authors focused on the effect of a centrally located cut-out, modelled within the framework of the extended finite element method.
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Modeling of latent heat effects on phase transformation in shape memory alloy thin structures
K.M. Armattoe,K.M. Armattoe,Céline Bouby,Céline Bouby,Mohamed Haboussi,T. Ben Zineb,T. Ben Zineb +6 more
TL;DR: In this paper, a fully coupled thermo-mechanical constitutive model for shape memory alloys taking into account latent heat effects during forward and reverse martensitic phase transformations is presented.
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Nonlinear axisymmetric dynamic buckling of functionally graded graphene reinforced porous nanocomposite spherical caps
TL;DR: In this article, the axisymmetric dynamic snap-through buckling of graphene platelets reinforced porous nanocomposite spherical caps subjected to a suddenly applied external pressure load is focused.