Add to ORKGIn the paper we present the analysis of multi-scale composite "from bottom to top of the hierarchy". At each step of the analysis we update the values of material properties of homogeneous components and compute new effective material parameters. Two different numerical techniques of homogenization in non-linear range, basing on numerical experiments, are shown
Multi-material domains are often found in industrial applications. Modelling them can be computation...
An original mechanical formulation to treat nonlinear orthotropic behavior of composite materials is...
In this paper an overview of a numerical approach to evaluate the mechanical behaviour until failure...
In this paper we present the analysis of multi-scale composite "from bottom to top of the hierarchy"...
This paper presents a model for the numerical analysis of the thermo-mechanical strain occurring in ...
Up to now mainly single scale models have been used to study material and structural behaviour at ma...
This paper presents a development of the usual generalized self-consistent method for homogenization...
Superconducting (SC) strands are composite materials: they are usually made of a normal metal matrix...
The main scope of this paper is to present rheological models that can simulate the non-linear behav...
In this paper the multiscale analysis of hierarchical composite with periodic microstructures is pre...
This paper presents a development of the usual generalized self-consistent method for homogenisation...
This paper presents a development of the usual generalized self-consistent method for homogenization...
The computational homogenization method enables to derive the overall behavior of heterogeneous mate...
The theoretical model of a beam of unidirectional composites, based on the homogenization theory and...
The ability to compute accurately the strain field in Nb3Sn filaments is a crucial point in cable de...
Multi-material domains are often found in industrial applications. Modelling them can be computation...
An original mechanical formulation to treat nonlinear orthotropic behavior of composite materials is...
In this paper an overview of a numerical approach to evaluate the mechanical behaviour until failure...
In this paper we present the analysis of multi-scale composite "from bottom to top of the hierarchy"...
This paper presents a model for the numerical analysis of the thermo-mechanical strain occurring in ...
Up to now mainly single scale models have been used to study material and structural behaviour at ma...
This paper presents a development of the usual generalized self-consistent method for homogenization...
Superconducting (SC) strands are composite materials: they are usually made of a normal metal matrix...
The main scope of this paper is to present rheological models that can simulate the non-linear behav...
In this paper the multiscale analysis of hierarchical composite with periodic microstructures is pre...
This paper presents a development of the usual generalized self-consistent method for homogenisation...
This paper presents a development of the usual generalized self-consistent method for homogenization...
The computational homogenization method enables to derive the overall behavior of heterogeneous mate...
The theoretical model of a beam of unidirectional composites, based on the homogenization theory and...
The ability to compute accurately the strain field in Nb3Sn filaments is a crucial point in cable de...
Multi-material domains are often found in industrial applications. Modelling them can be computation...
An original mechanical formulation to treat nonlinear orthotropic behavior of composite materials is...
In this paper an overview of a numerical approach to evaluate the mechanical behaviour until failure...