This paper presents an extension of the energy momentum conserving algorithm, usually developed for hyperelastic constitutive models, to the hypoelastic constitutive models. For such a material no potential can be defined, and thus the conservation of the energy is ensured only if the elastic work of the deformation can be restored by the scheme. We propose a new expression of internal forces at the element level which is shown to verify this property. We also demonstrate that the work of plastic deformation is positive and consistent with the material model. Finally several numerical applications are presented. Copyright (C) 2003 John Wiley Sons, Ltd
Hypoelastic models are widely used in industrial and military codes for numerical simulation of high...
In this paper, a restoring force model, composed of a trilinear skeleton curve and hysteretic rules,...
In this paper, we present a method to model hyperelasticity that is well suited for representing the...
International audienceThis paper presents an extension of the energy momentum conserving algorithm, ...
International audienceThis paper presents an extension of the energy momentum conserving algorithm, ...
This chapter presents a new formulation of the internal forces for hypoelastic constitutive models e...
This paper proposes a new formulation of the internal forces for hypoelastic constitutive models ens...
Traditional time integration algorithms for finite-element discretization are numerically stable onl...
In a previous paper [L. Noels, L. Stainier, J.-P. Ponthot, An energy momentum conserving algorithm u...
International audienceIn a previous paper [L. Noels, L. Stainier, J.-P. Ponthot, An energy momentum ...
This paper develops implicit conserving time-integration schemes for initial boundary value problems...
Although they are the most widely used time integration algorithms for finite-element discretization...
w Introduction and motivation Classical nonlinear continuum echanics i built on the balance laws of ...
When studying impact problems, time integration of the equations of evolution occurs in the non-line...
In this paper we use the variational formulation of elasto-plastic updates proposed by Ortiz and Sta...
Hypoelastic models are widely used in industrial and military codes for numerical simulation of high...
In this paper, a restoring force model, composed of a trilinear skeleton curve and hysteretic rules,...
In this paper, we present a method to model hyperelasticity that is well suited for representing the...
International audienceThis paper presents an extension of the energy momentum conserving algorithm, ...
International audienceThis paper presents an extension of the energy momentum conserving algorithm, ...
This chapter presents a new formulation of the internal forces for hypoelastic constitutive models e...
This paper proposes a new formulation of the internal forces for hypoelastic constitutive models ens...
Traditional time integration algorithms for finite-element discretization are numerically stable onl...
In a previous paper [L. Noels, L. Stainier, J.-P. Ponthot, An energy momentum conserving algorithm u...
International audienceIn a previous paper [L. Noels, L. Stainier, J.-P. Ponthot, An energy momentum ...
This paper develops implicit conserving time-integration schemes for initial boundary value problems...
Although they are the most widely used time integration algorithms for finite-element discretization...
w Introduction and motivation Classical nonlinear continuum echanics i built on the balance laws of ...
When studying impact problems, time integration of the equations of evolution occurs in the non-line...
In this paper we use the variational formulation of elasto-plastic updates proposed by Ortiz and Sta...
Hypoelastic models are widely used in industrial and military codes for numerical simulation of high...
In this paper, a restoring force model, composed of a trilinear skeleton curve and hysteretic rules,...
In this paper, we present a method to model hyperelasticity that is well suited for representing the...