We use biorthogonal B-spline wavelet bases to discretize the dynamic response problem for a straight elasto-plastic rod. In an elastic predictor/plastic corrector method, we use interpolatory wavelets for the stress correction. In several numerical experiments, we show the potential of Wavelet-Galerkin methods for elastoplasticity problems. (orig.)Available from TIB Hannover: RN 8680(181) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische InformationsbibliothekSIGLEDEGerman
In this paper we consider a coupled system of elastic and rigid bodies. It can be mathematically for...
International audienceThis paper is devoted to describing representations of the plane elastostatics...
This thesis was submitted for the award of Doctor of Philosophy and was awarded by Brunel University...
The well-known problem of elasticity that may be written as a variational equation [4] has been rece...
This work presents an analysis of the wavelet-Galerkin method for one-dimensional elastoplastic-dama...
We present a wavelet-Galerkin method for the analysis of elastic-plastic-damage systems. Ju's model ...
International audienceThis paper is devoted to a new algorithm to solve elastostatics problems on an...
This paper is concerned with the development of adaptive wavelet methods for the hardening problem i...
This paper proposes a wavelet based numerical method for the solution of elastoplastic problem. The ...
In the last years, applying wavelets analysis has called the attention in a wide variety of practica...
Wavelet-based methods open a door for numerical solution of differential equations. Stiff systems, a...
Discrete orthogonal wavelets are a family of functions with compact support which form a basis on a ...
Abstract-This paper is devoted to a new algorithm to compute the local and overall response of a com...
The Daubechies (DB) wavelets are used for solving 2D plane elasticity problems. In order to improve ...
Wavelet Galerkin Method is used to numerically solve an initial differential problem, after adapting...
In this paper we consider a coupled system of elastic and rigid bodies. It can be mathematically for...
International audienceThis paper is devoted to describing representations of the plane elastostatics...
This thesis was submitted for the award of Doctor of Philosophy and was awarded by Brunel University...
The well-known problem of elasticity that may be written as a variational equation [4] has been rece...
This work presents an analysis of the wavelet-Galerkin method for one-dimensional elastoplastic-dama...
We present a wavelet-Galerkin method for the analysis of elastic-plastic-damage systems. Ju's model ...
International audienceThis paper is devoted to a new algorithm to solve elastostatics problems on an...
This paper is concerned with the development of adaptive wavelet methods for the hardening problem i...
This paper proposes a wavelet based numerical method for the solution of elastoplastic problem. The ...
In the last years, applying wavelets analysis has called the attention in a wide variety of practica...
Wavelet-based methods open a door for numerical solution of differential equations. Stiff systems, a...
Discrete orthogonal wavelets are a family of functions with compact support which form a basis on a ...
Abstract-This paper is devoted to a new algorithm to compute the local and overall response of a com...
The Daubechies (DB) wavelets are used for solving 2D plane elasticity problems. In order to improve ...
Wavelet Galerkin Method is used to numerically solve an initial differential problem, after adapting...
In this paper we consider a coupled system of elastic and rigid bodies. It can be mathematically for...
International audienceThis paper is devoted to describing representations of the plane elastostatics...
This thesis was submitted for the award of Doctor of Philosophy and was awarded by Brunel University...