Add to ORKGThe paper presents detailed micromechanical finite element simulations of composite materials with soft materials undergoing large macroscopic bending deformation. The simulations allow the study of fibre microbuckling under bending, including the kinematics of the fibres, as well as the strains in the matrix. These simulations lead to a simple analytical model that allows a quite accurate estimation of the buckling wavelength. It also provides the moment-curvature relationship. Finally, the model is also able to predict the maximum strain in the fibres for a given curvature
The present paper concerns with the influence of fiber packing on the transverse plastic properties ...
The tensile behaviour of brittle materials can be enhanced by fibres. The cracking stress may increa...
This work investigates the interplay between viscoelasticity and instabilities in soft particulate c...
AbstractThis paper presents an experimental and numerical study of the folding behavior of thin comp...
This paper presents an experimental and numerical study of the folding behavior of thin composite ma...
Recent designs for deployable space structures include elements that can be folded to high curvatur...
This thesis presents an experimental, numerical and analytical study of the behavior of thin fiber c...
AbstractThis paper presents an experimental and numerical study of unidirectional carbon fiber compo...
Design of advanced space structures like solar sails and reflectors are limited by the volume and pa...
A two-dimensional mechanical model is presented to predict the compressive strength of unidirectiona...
L'Garde has designed and developed a high-strain composite material consisting of car- bon FIbers em...
Elastic buckling is studied as a possible failure mechanism of a composite. Although it appears that...
Most space applications require deployable structures due to the limiting size of current launch veh...
This thesis presents an investigation for the elastic deformation of two-phase fibril composites wit...
Thin woven composites have been popular for space structures due to the symmetrical and balanced pro...
The present paper concerns with the influence of fiber packing on the transverse plastic properties ...
The tensile behaviour of brittle materials can be enhanced by fibres. The cracking stress may increa...
This work investigates the interplay between viscoelasticity and instabilities in soft particulate c...
AbstractThis paper presents an experimental and numerical study of the folding behavior of thin comp...
This paper presents an experimental and numerical study of the folding behavior of thin composite ma...
Recent designs for deployable space structures include elements that can be folded to high curvatur...
This thesis presents an experimental, numerical and analytical study of the behavior of thin fiber c...
AbstractThis paper presents an experimental and numerical study of unidirectional carbon fiber compo...
Design of advanced space structures like solar sails and reflectors are limited by the volume and pa...
A two-dimensional mechanical model is presented to predict the compressive strength of unidirectiona...
L'Garde has designed and developed a high-strain composite material consisting of car- bon FIbers em...
Elastic buckling is studied as a possible failure mechanism of a composite. Although it appears that...
Most space applications require deployable structures due to the limiting size of current launch veh...
This thesis presents an investigation for the elastic deformation of two-phase fibril composites wit...
Thin woven composites have been popular for space structures due to the symmetrical and balanced pro...
The present paper concerns with the influence of fiber packing on the transverse plastic properties ...
The tensile behaviour of brittle materials can be enhanced by fibres. The cracking stress may increa...
This work investigates the interplay between viscoelasticity and instabilities in soft particulate c...