International audienceFully coupled constitutive equations, formulated in the framework of the thermodynamics of irreversible processes with state variables, accounting for isotropic hardening as well as the isotropic ductile damage are used to simulate numerically, by the finite element analysis, 3D metal hydroforming processes with damage occurence. An implicit integration scheme for local time integration of the constitutive equations and a dynamic explicit resolution scheme to solve the associated dynamic equilibrium problem are used. The effects of friction coefficient, material ductility and hydro bulging condition, on the hydroformability of various thin tubes are discussed
This paper presents a parametric finite element analysis using a history-dependent internal state va...
International audienceIn this study, we present an experimental/numerical methodology which aims to ...
International audienceHydroforming simulation of T-shaped tube is performed using an thermoelastopla...
International audienceDuring T-shaped or Y-shaped tubes hydroforming the tube wall is flatten on the...
International audienceIn this study, we present an experimental/numerical methodology, which aims to...
International audienceIn this study, we present an experimental/numerical methodology which aims to ...
International audienceCoupled constitutive equations, formulated in the framework of the thermodynam...
International audienceDuring tube hydroforming process, the friction conditions between the tube and...
International audienceMetal forming operations are optimized by using finite element simulations. Th...
Tube hydroforming is a forming method which has several advantages. By using pressure in combination...
International audienceTube hydroforming is receiving the greatest attention especially in the automo...
Abstract: This paper deals with the optimization of tube hydroforming parameters in order to reduce ...
International audienceThis paper presents a numerical methodology which aims to improve 3D welded tu...
International audienceThis paper presents a numerical methodology which aims to improve 3D thin shee...
International audienceThis paper presents an experimental/numerical methodology, to improve 3D Welde...
This paper presents a parametric finite element analysis using a history-dependent internal state va...
International audienceIn this study, we present an experimental/numerical methodology which aims to ...
International audienceHydroforming simulation of T-shaped tube is performed using an thermoelastopla...
International audienceDuring T-shaped or Y-shaped tubes hydroforming the tube wall is flatten on the...
International audienceIn this study, we present an experimental/numerical methodology, which aims to...
International audienceIn this study, we present an experimental/numerical methodology which aims to ...
International audienceCoupled constitutive equations, formulated in the framework of the thermodynam...
International audienceDuring tube hydroforming process, the friction conditions between the tube and...
International audienceMetal forming operations are optimized by using finite element simulations. Th...
Tube hydroforming is a forming method which has several advantages. By using pressure in combination...
International audienceTube hydroforming is receiving the greatest attention especially in the automo...
Abstract: This paper deals with the optimization of tube hydroforming parameters in order to reduce ...
International audienceThis paper presents a numerical methodology which aims to improve 3D welded tu...
International audienceThis paper presents a numerical methodology which aims to improve 3D thin shee...
International audienceThis paper presents an experimental/numerical methodology, to improve 3D Welde...
This paper presents a parametric finite element analysis using a history-dependent internal state va...
International audienceIn this study, we present an experimental/numerical methodology which aims to ...
International audienceHydroforming simulation of T-shaped tube is performed using an thermoelastopla...