Classical finite element method including strain-softening materials suffers from a mesh-dependency solution. The thickness of the bands in which strains are localized is arbitrarily narrow and may lead to a rupture without energy consumption. This is the case in quasi-static as well as in dynamics problems. The present paper uses a two-scale dynamic damage law that is based on an intrinsic length at micro-scale, corresponding to the inter-distance between two adjacent micro-cracks, that regularizes the strain localization problem in dynamics. The material response is time-dependent due to the inertial effect of the micro-crack propagation. This produces a natural, microstructurally-based, delayed response of the material that, in turn, rem...
Strain localization is an instability phenomenon occurring in deformable solid materials which under...
The main aim of this work is investigation of localization problem in strain softening materials and...
Finite elements with embedded shocks are used to investigate transient strain localization phenomena...
International audienceClassical finite element method including strain-softening materials suffers f...
Classical finite element method including strain-softening materials suffers from a mesh-dependency ...
Multi-scale modeling frequently relies on microstructural representative volume elements (RVEs) on w...
We present a novel two-scale finite element model for strain localization in solids, covering the co...
This paper presents a framework that enables microstructural modelling of complex microstructures in...
Abstract: The length scale is not accounted for in classical modelling of strain localisation, eithe...
A gradient enhanced model is formulated which simulates micro-structurally induced wave dispersion a...
The microstructure of a typical material contains a large number of microdefects which are small and...
AbstractThe paper presents a new procedure to construct micro-mechanical damage models able to descr...
It is well known that both rate dependent and gradient-dependent constitutive models introduce inter...
peer reviewedContinuum media from classical mechanics cannot appropriately reproduce the evolution o...
Strain localization is an instability phenomenon occurring in deformable solid materials which under...
The main aim of this work is investigation of localization problem in strain softening materials and...
Finite elements with embedded shocks are used to investigate transient strain localization phenomena...
International audienceClassical finite element method including strain-softening materials suffers f...
Classical finite element method including strain-softening materials suffers from a mesh-dependency ...
Multi-scale modeling frequently relies on microstructural representative volume elements (RVEs) on w...
We present a novel two-scale finite element model for strain localization in solids, covering the co...
This paper presents a framework that enables microstructural modelling of complex microstructures in...
Abstract: The length scale is not accounted for in classical modelling of strain localisation, eithe...
A gradient enhanced model is formulated which simulates micro-structurally induced wave dispersion a...
The microstructure of a typical material contains a large number of microdefects which are small and...
AbstractThe paper presents a new procedure to construct micro-mechanical damage models able to descr...
It is well known that both rate dependent and gradient-dependent constitutive models introduce inter...
peer reviewedContinuum media from classical mechanics cannot appropriately reproduce the evolution o...
Strain localization is an instability phenomenon occurring in deformable solid materials which under...
The main aim of this work is investigation of localization problem in strain softening materials and...
Finite elements with embedded shocks are used to investigate transient strain localization phenomena...