Classical finite element simulations face the problems of losing uniqueness and strain localization when the strain softening of materials is involved. Thus, when using continuum damage model or plasticity softening model, numerical convergence will not be obtained with the refinement of the finite element discretization when strain localization occurs. Gradient-enhanced softening and non-local continua models have been proposed by several researchers in order to solve this problem. In such approaches, high-order spatial gradients of state variables are incorporated in the macroscopic constitutive equations. However, when dealing with complex heterogeneous materials, a direct simulation of the macroscopic structures is unreachable, motiv...
An overview of the modelling of quasi-brittle as well as ductile damage is given. The multiscale pro...
A non-local gradient-based damage formulation within a geometrically non-linear setting is presented...
A non-local gradient-based damage formulation within a geometrically non-linear set- ting is present...
In this work, a gradient-enhanced mean-field homogenization (MFH) procedure is proposed for fiber re...
In this work, a gradient-enhanced mean-field homogenization (MFH) procedure is proposed for fiber re...
In this work, a gradient-enhanced homogenization procedure is proposed for fiber reinforced material...
AbstractThis paper presents an incremental-secant mean-field homogenization (MFH) procedure for comp...
This paper presents an incremental-secant mean- field homogenization (MFH) procedure for composites ...
Finite element simulations involving strain softening materials or finite strains are faced with pro...
In this work, multi-scale methods with strain softening are developed in the contexts of damage mode...
This paper presents an incremental-secant mean-field homogenization (MFH) procedure for composites m...
Recently, the authors have presented an incremental-secant mean-field homogenisation (MFH) process f...
The main aim of the work presented in this paper was addressing localisation problem observed in the...
A multiscale method is developed to study the failure of carbon fiber reinforced composites. In ...
The modelling of damage effects in materials constitutes a major challenge in various engineering-re...
An overview of the modelling of quasi-brittle as well as ductile damage is given. The multiscale pro...
A non-local gradient-based damage formulation within a geometrically non-linear setting is presented...
A non-local gradient-based damage formulation within a geometrically non-linear set- ting is present...
In this work, a gradient-enhanced mean-field homogenization (MFH) procedure is proposed for fiber re...
In this work, a gradient-enhanced mean-field homogenization (MFH) procedure is proposed for fiber re...
In this work, a gradient-enhanced homogenization procedure is proposed for fiber reinforced material...
AbstractThis paper presents an incremental-secant mean-field homogenization (MFH) procedure for comp...
This paper presents an incremental-secant mean- field homogenization (MFH) procedure for composites ...
Finite element simulations involving strain softening materials or finite strains are faced with pro...
In this work, multi-scale methods with strain softening are developed in the contexts of damage mode...
This paper presents an incremental-secant mean-field homogenization (MFH) procedure for composites m...
Recently, the authors have presented an incremental-secant mean-field homogenisation (MFH) process f...
The main aim of the work presented in this paper was addressing localisation problem observed in the...
A multiscale method is developed to study the failure of carbon fiber reinforced composites. In ...
The modelling of damage effects in materials constitutes a major challenge in various engineering-re...
An overview of the modelling of quasi-brittle as well as ductile damage is given. The multiscale pro...
A non-local gradient-based damage formulation within a geometrically non-linear setting is presented...
A non-local gradient-based damage formulation within a geometrically non-linear set- ting is present...