Add to ORKGBackground The finite element method has complimented research in the field of network mechanics in the past years in numerous studies about various materials. Numerical predictions and the planning efficiency of experimental procedures are two of the motivational aspects for these numerical studies. The widespread availability of high performance computing facilities has been the enabler for the simulation of sufficiently large systems. Objectives and Motivation In the present study, finite element models were built for sintered, metallic fibre networks and validated by previously published experimental stiffness measurements. The validated models were the basis for predictions about so far unknown properties. Materials and Methods The fin...
A micromechanics model is proposed for the elasticity of planar fiber networks (FNs). The FN is crea...
The main goals of this work were to gain insight into the transport and mechanical properties of the...
The paper deals with the numerical modelling of hooked steel fibres embedded in high-strength cement...
The finite element method has complimented research in the field of network mechanics in the past ye...
Background: Sintered, metallic fibre networks have been used in the design of a range of technical ...
This chapter covers the mechanical properties (elastic, plastic, and fracture-related) of metal fibe...
Bonded networks of metal fibres are highly porous, permeable materials, which often exhibit relative...
Fracture processes in fibre-reinforced quasi-brittle materials were studied with a threedimensional ...
Fibre networks combined with a matrix material in their void phase make the design of novel and smar...
A network mechanics model for cellulose fibre fluff is proposed. 2D and 3D versions of the model hav...
The present study investigates mechanical properties of a novel sintered metallic fibre structure wi...
International audienceFibers networks materials have been elaborated from different fibers: metallic...
International audienceA general approach to simulate the mechanical behavior of textile materials by...
In this contribution, a full 3D finite element model of electrospun networks is presented. The model...
Interconnected fibre networks presenting transverse isotropic symmetry with variable fibre interconn...
A micromechanics model is proposed for the elasticity of planar fiber networks (FNs). The FN is crea...
The main goals of this work were to gain insight into the transport and mechanical properties of the...
The paper deals with the numerical modelling of hooked steel fibres embedded in high-strength cement...
The finite element method has complimented research in the field of network mechanics in the past ye...
Background: Sintered, metallic fibre networks have been used in the design of a range of technical ...
This chapter covers the mechanical properties (elastic, plastic, and fracture-related) of metal fibe...
Bonded networks of metal fibres are highly porous, permeable materials, which often exhibit relative...
Fracture processes in fibre-reinforced quasi-brittle materials were studied with a threedimensional ...
Fibre networks combined with a matrix material in their void phase make the design of novel and smar...
A network mechanics model for cellulose fibre fluff is proposed. 2D and 3D versions of the model hav...
The present study investigates mechanical properties of a novel sintered metallic fibre structure wi...
International audienceFibers networks materials have been elaborated from different fibers: metallic...
International audienceA general approach to simulate the mechanical behavior of textile materials by...
In this contribution, a full 3D finite element model of electrospun networks is presented. The model...
Interconnected fibre networks presenting transverse isotropic symmetry with variable fibre interconn...
A micromechanics model is proposed for the elasticity of planar fiber networks (FNs). The FN is crea...
The main goals of this work were to gain insight into the transport and mechanical properties of the...
The paper deals with the numerical modelling of hooked steel fibres embedded in high-strength cement...