Add to ORKGThe effective use of composite materials in the technology industry requires the development of accurate models. Typical such materials in electrotechnical applications are lamination stacks and soft magnetic composites, used in the so-called magnetoquasistatic (low frequency) regime. Current homogenization models (e.g. the classical homogenization method, mean field homogenization, ...) fail to handle all the difficulties raised by the modeling of these materials, particularly taking into account the complexity of their microstructure and their nonlinear/hysteretic behaviour. In this thesis we develop a multiscale computational method which allows to effectively solve multiscale magnetoquasistatic problems. The technique is inspired by t...
In the present work, the behavior of heterogeneous magnetorheological composites subjected to large ...
This article focuses on computational multiscale methods for the mechanical response of nonlinear he...
This paper presents the application of a finite element multiscale method, based on the homogenizati...
In this paper we develop magnetic induction conforming multiscale formulations for magnetoquasistati...
The increasing use of composite materials in the technological industry (automotive, aerospace) requ...
Abstract—In this paper, a heterogeneous multiscale method (HMM) based technique is applied to model ...
In this paper, a heterogeneous multiscale method (HMM) based technique is applied to model the behav...
In this paper, we investigate the modeling of ferromagnetic multiscale materials. We propose a compu...
This thesis is devoted to the study of a nonlinear eddy current problem and the study of the propert...
This paper presents a mathematical homogenization technique able to handle fine periodic structures ...
This article focuses on computational multiscale methods for the mechanical response of nonlinear he...
The computational homogenization method enables to derive the overall behavior of heterogeneous mate...
In the present work, the behavior of heterogeneous magnetorheological composites subjected to large ...
This article focuses on computational multiscale methods for the mechanical response of nonlinear he...
This paper presents the application of a finite element multiscale method, based on the homogenizati...
In this paper we develop magnetic induction conforming multiscale formulations for magnetoquasistati...
The increasing use of composite materials in the technological industry (automotive, aerospace) requ...
Abstract—In this paper, a heterogeneous multiscale method (HMM) based technique is applied to model ...
In this paper, a heterogeneous multiscale method (HMM) based technique is applied to model the behav...
In this paper, we investigate the modeling of ferromagnetic multiscale materials. We propose a compu...
This thesis is devoted to the study of a nonlinear eddy current problem and the study of the propert...
This paper presents a mathematical homogenization technique able to handle fine periodic structures ...
This article focuses on computational multiscale methods for the mechanical response of nonlinear he...
The computational homogenization method enables to derive the overall behavior of heterogeneous mate...
In the present work, the behavior of heterogeneous magnetorheological composites subjected to large ...
This article focuses on computational multiscale methods for the mechanical response of nonlinear he...
This paper presents the application of a finite element multiscale method, based on the homogenizati...