<p>Implementation of textile composite model in finite element framework using computational homogenisation method. The model captures the evolving bulk properties of composites (thermal, hygral and mechanical). In this implementation plasticity of the matrix and cohesion of interface are also taken into account.</p
This contribution presents a new framework for the computational homogenisation of the mechanical pr...
This paper presents an initial computational multiscale modelling of the fibre-reinforced composite ...
For the mechanical modeling and simulation of the heterogeneous composition of a fiber structured ma...
A simple finite element homogenization procedure is developed for application to fiber composites wi...
Meso-mechanical modelling of textile composites on the “meso” (unit cell) level provides information...
Textile composites are widely used in advanced industrial applications and are made from various typ...
Meso-scale (unit cell of an impregnated textile reinforcement) finite element (FE) modelling of text...
A coupled hygro-thermo-mechanical computational model is proposed for fibre reinforced polymers, for...
AbstractA coupled hygro-thermo-mechanical computational model is proposed for fibre reinforced polym...
The paper presents a procedure for the numerical evaluation of the mechanical properties of woven fa...
A fully coupled hygro-thermo-mechanical computational framework based on the multi-scale computation...
This contribution presents a new framework for the computational homogenization of the mechanical pr...
This paper presents a multiscale computational homogenisation approach for the calculation of homoge...
Proefschrift ingediend tot het behalen van de graad van Doctor in de Ingenieurswetenschappen: Werktu...
The mechanical properties of woven fabric composites could be predicted by two different approaches ...
This contribution presents a new framework for the computational homogenisation of the mechanical pr...
This paper presents an initial computational multiscale modelling of the fibre-reinforced composite ...
For the mechanical modeling and simulation of the heterogeneous composition of a fiber structured ma...
A simple finite element homogenization procedure is developed for application to fiber composites wi...
Meso-mechanical modelling of textile composites on the “meso” (unit cell) level provides information...
Textile composites are widely used in advanced industrial applications and are made from various typ...
Meso-scale (unit cell of an impregnated textile reinforcement) finite element (FE) modelling of text...
A coupled hygro-thermo-mechanical computational model is proposed for fibre reinforced polymers, for...
AbstractA coupled hygro-thermo-mechanical computational model is proposed for fibre reinforced polym...
The paper presents a procedure for the numerical evaluation of the mechanical properties of woven fa...
A fully coupled hygro-thermo-mechanical computational framework based on the multi-scale computation...
This contribution presents a new framework for the computational homogenization of the mechanical pr...
This paper presents a multiscale computational homogenisation approach for the calculation of homoge...
Proefschrift ingediend tot het behalen van de graad van Doctor in de Ingenieurswetenschappen: Werktu...
The mechanical properties of woven fabric composites could be predicted by two different approaches ...
This contribution presents a new framework for the computational homogenisation of the mechanical pr...
This paper presents an initial computational multiscale modelling of the fibre-reinforced composite ...
For the mechanical modeling and simulation of the heterogeneous composition of a fiber structured ma...
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