The increasing use of composite materials in the technological industry (automotive, aerospace) requires the development of effec- tive models that account for the complexity of the microstructure of these materials and the nonlinear behaviour they can exhibit. In this paper we develop a multiscale computational homogenization method for modelling nonlinear multiscale materials in magnetostatics based on the finite element method. The method solves the macroscale problem by getting data from certain microscale problems around some points of interest. The missing nonlinear constitutive law at the macroscale level is derived through an upscaling from the microscale solutions. The downscaling step consists in imposing a source term and determi...
A composite is a material made out of two or more constituents (phases) combined together in order ...
In this paper, we compare qualitatively and quan- titatively the performance and validity range of a...
This chapter presents a computational homogenization strategy, whichprovides a rigorous approach to ...
The increasing use of composite materials in the technological industry (automotive, aerospace, ...)...
The effective use of composite materials in the technology industry requires the development of accu...
In this paper, we investigate the modeling of ferromagnetic multiscale materials. We propose a compu...
In this paper, a heterogeneous multiscale method (HMM) based technique is applied to model the behav...
In this paper, a heterogeneous multiscale method (HMM) based technique is applied to model the behav...
In this paper we develop magnetic induction conforming multiscale formulations for magnetoquasistati...
AbstractThis work presents a geometrically nonlinear homogenization framework for composites with ma...
This work presents a general formulation of small and large strain multiscale solid constitutive mod...
This work presents a geometrically nonlinear homogenization framework for composites with magneto-me...
This chapter presents a computational homogenization strategy, which provides a rigorous approach to...
A composite is a material made out of two or more constituents (phases) combined together in order ...
In this paper, we compare qualitatively and quan- titatively the performance and validity range of a...
This chapter presents a computational homogenization strategy, whichprovides a rigorous approach to ...
The increasing use of composite materials in the technological industry (automotive, aerospace, ...)...
The effective use of composite materials in the technology industry requires the development of accu...
In this paper, we investigate the modeling of ferromagnetic multiscale materials. We propose a compu...
In this paper, a heterogeneous multiscale method (HMM) based technique is applied to model the behav...
In this paper, a heterogeneous multiscale method (HMM) based technique is applied to model the behav...
In this paper we develop magnetic induction conforming multiscale formulations for magnetoquasistati...
AbstractThis work presents a geometrically nonlinear homogenization framework for composites with ma...
This work presents a general formulation of small and large strain multiscale solid constitutive mod...
This work presents a geometrically nonlinear homogenization framework for composites with magneto-me...
This chapter presents a computational homogenization strategy, which provides a rigorous approach to...
A composite is a material made out of two or more constituents (phases) combined together in order ...
In this paper, we compare qualitatively and quan- titatively the performance and validity range of a...
This chapter presents a computational homogenization strategy, whichprovides a rigorous approach to ...