Add to ORKGThe transverse shear effects is a important phenomenon which have to be taken into account in the composite structures studies. This paper deals whith the use of differents kind of transverse shear functions for the analytical displacement fields calculations of composite materials. Since the old models of Kirchhoff-Love and Reissner-Mindlin to consider the transverse shear stresses, litterature gives a very large number of functions wich can be used to concider the transverse shear effects, especially the warping sections
The most ordinary finite element formulations for 3D frame analysis do not consider the warping of c...
Pour combiner performance, faible masse et durabilité, les composites renforcés de fibres UD sont pa...
The most ordinary finite element formulations for 3D frame analysis do not consider the warping of c...
The complex mechanical behaviour of composite materials, due to internal heterogeneity and multi-lay...
De nombreuses études ont été menées sur les matériaux composites, concernant le comportement mécaniq...
The complex mechanical behaviour of composite materials, due to internal heterogeneity and multi-lay...
International audienceThis paper presents an analytically and numerical study of the warping phenome...
An anisotropic thin walled closed section beam theory was developed based on an asymptotical analysi...
A general analytical model based on the first-order shear deformable beam theory applicable to thin-...
The finite element method is employed for the flexural-torsional linear buckling analysis of beams of...
A general analytical model based on the first-order shear deformable beam theory applicable to thin-...
Higher-order shear-deformable refined theories, based on isoparametric elements, are adopted for tra...
Tubular composite beams are of increasing interest due to their growing applications in the offshore...
International audienceThe influence of transverse damage on compressive strength in fiber direction ...
The most ordinary finite element formulations for 3D frame analysis do not consider the warping of c...
The most ordinary finite element formulations for 3D frame analysis do not consider the warping of c...
Pour combiner performance, faible masse et durabilité, les composites renforcés de fibres UD sont pa...
The most ordinary finite element formulations for 3D frame analysis do not consider the warping of c...
The complex mechanical behaviour of composite materials, due to internal heterogeneity and multi-lay...
De nombreuses études ont été menées sur les matériaux composites, concernant le comportement mécaniq...
The complex mechanical behaviour of composite materials, due to internal heterogeneity and multi-lay...
International audienceThis paper presents an analytically and numerical study of the warping phenome...
An anisotropic thin walled closed section beam theory was developed based on an asymptotical analysi...
A general analytical model based on the first-order shear deformable beam theory applicable to thin-...
The finite element method is employed for the flexural-torsional linear buckling analysis of beams of...
A general analytical model based on the first-order shear deformable beam theory applicable to thin-...
Higher-order shear-deformable refined theories, based on isoparametric elements, are adopted for tra...
Tubular composite beams are of increasing interest due to their growing applications in the offshore...
International audienceThe influence of transverse damage on compressive strength in fiber direction ...
The most ordinary finite element formulations for 3D frame analysis do not consider the warping of c...
The most ordinary finite element formulations for 3D frame analysis do not consider the warping of c...
Pour combiner performance, faible masse et durabilité, les composites renforcés de fibres UD sont pa...
The most ordinary finite element formulations for 3D frame analysis do not consider the warping of c...