Add to ORKGAn efficient multiscale approach is established in order to compute the macroscopic response of nonlinear composites. The micro problem is rewritten in an integral form of the Lippmann-Schwinger type and solved efficiently by Fast Fourier Transforms. Using realistic microstructure models complex nonlinear effects are reproduced and validated with measured data of fiber reinforced plastics. The micro problem is integrated in a Finite Element framework which is used to solve the macroscale. The scale coupling technique and a consistent numerical algorithm is established. The method provides an efficient way to determine the macroscopic response considering arbitrary microstructures, constitutive behaviors and loading conditions
Multi-Scale Continuum Mechanics Modelling of Fiber-Reinforced Polymer Composites provides a comprehe...
Aim of the present paper is to develop an efficient multiscale procedure for studying the mechanical...
Aim of the present paper is to develop an efficient multiscale procedure for studying the mechanical...
An efficient multiscale approach is established in order to compute the macroscopic response of nonl...
Composite materials possess a highly complex material behavior, and thus advanced simulation techniq...
Composite materials possess a highly complex material behavior, and thus advanced simulation techniq...
Modeling failure and progressive damage of composite materials presents a challenging task. Phenomen...
Modeling failure and progressive damage of composite materials presents a challenging task. Conventi...
The objective of the current work is the development of a multiscale numerical platform for the ana...
Fiber-reinforced plastics are of increasing relevance in a broad variety of engineering applications...
Fiber-reinforced plastics are of increasing relevance in a broad variety of engineering applications...
Abstract. An imbricated finite element technique has been recently developed in the context of multi...
AbstractThe simultaneous twoscale analysis of unidirectionally fiber reinforced composite structures...
A multiscale nonlinear finite element modeling technique is developed in this paper to predict the p...
Aim of the present paper is to develop an efficient multiscale procedure for studying the mechanical...
Multi-Scale Continuum Mechanics Modelling of Fiber-Reinforced Polymer Composites provides a comprehe...
Aim of the present paper is to develop an efficient multiscale procedure for studying the mechanical...
Aim of the present paper is to develop an efficient multiscale procedure for studying the mechanical...
An efficient multiscale approach is established in order to compute the macroscopic response of nonl...
Composite materials possess a highly complex material behavior, and thus advanced simulation techniq...
Composite materials possess a highly complex material behavior, and thus advanced simulation techniq...
Modeling failure and progressive damage of composite materials presents a challenging task. Phenomen...
Modeling failure and progressive damage of composite materials presents a challenging task. Conventi...
The objective of the current work is the development of a multiscale numerical platform for the ana...
Fiber-reinforced plastics are of increasing relevance in a broad variety of engineering applications...
Fiber-reinforced plastics are of increasing relevance in a broad variety of engineering applications...
Abstract. An imbricated finite element technique has been recently developed in the context of multi...
AbstractThe simultaneous twoscale analysis of unidirectionally fiber reinforced composite structures...
A multiscale nonlinear finite element modeling technique is developed in this paper to predict the p...
Aim of the present paper is to develop an efficient multiscale procedure for studying the mechanical...
Multi-Scale Continuum Mechanics Modelling of Fiber-Reinforced Polymer Composites provides a comprehe...
Aim of the present paper is to develop an efficient multiscale procedure for studying the mechanical...
Aim of the present paper is to develop an efficient multiscale procedure for studying the mechanical...