Add to ORKGVibration and buckling analysis of composite beams with arbitrary lay-ups using refined shear deformation theory is presented. The theory accounts for the parabolical variation of shear strains through the depth of beam. Three governing equations of motion are derived from the Hamilton’s principle. The resulting coupling is referred to as triply coupled vibration and buckling. A two-noded C1 beam element with five degree-of-freedom per node which accounts for shear deformation effects and all coupling coming from the material anisotropy is developed to solve the problem. Numerical results are obtained for composite beams to investigate effects of fiber orientation and modulus ratio on the natural frequencies, critical buckling loads and cor...
A general analytical model based on shear-deformable beam theory has been developed to study the fle...
A general analytical model based on shear-deformable beam theory has been developed to study the fle...
Static behavior of composite beams with arbitrary lay-ups using various refined shear deformation th...
Vibration and buckling analysis of composite beams with arbitrary lay-ups using refined shear deform...
Vibration and buckling analysis of composite beams with arbitrary lay-ups using refined shear deform...
Vibration and buckling analysis of cross-ply composite beams using refined shear deformation theory ...
Vibration and buckling analysis of cross-ply composite beams using refined shear deformation theory ...
Vibration and buckling analysis of cross-ply composite beams using refined shear deformation theory ...
A finite element model based on sinusoidal shear deformation theory is developed to study vibration ...
Vibration and buckling analysis of cross-ply composite beams using refined shear deformation theory ...
Free vibration of axially loaded rectangular composite beams with arbitrary lay-ups using refined sh...
A finite element model based on sinusoidal shear deformation theory is developed to study vibration ...
A finite element model based on sinusoidal shear deformation theory is developed to study vibration ...
A general analytical model based on shear-deformable beam theory has been developed to study the fle...
Static behavior of composite beams with arbitrary lay-ups using various refined shear deformation th...
A general analytical model based on shear-deformable beam theory has been developed to study the fle...
A general analytical model based on shear-deformable beam theory has been developed to study the fle...
Static behavior of composite beams with arbitrary lay-ups using various refined shear deformation th...
Vibration and buckling analysis of composite beams with arbitrary lay-ups using refined shear deform...
Vibration and buckling analysis of composite beams with arbitrary lay-ups using refined shear deform...
Vibration and buckling analysis of cross-ply composite beams using refined shear deformation theory ...
Vibration and buckling analysis of cross-ply composite beams using refined shear deformation theory ...
Vibration and buckling analysis of cross-ply composite beams using refined shear deformation theory ...
A finite element model based on sinusoidal shear deformation theory is developed to study vibration ...
Vibration and buckling analysis of cross-ply composite beams using refined shear deformation theory ...
Free vibration of axially loaded rectangular composite beams with arbitrary lay-ups using refined sh...
A finite element model based on sinusoidal shear deformation theory is developed to study vibration ...
A finite element model based on sinusoidal shear deformation theory is developed to study vibration ...
A general analytical model based on shear-deformable beam theory has been developed to study the fle...
Static behavior of composite beams with arbitrary lay-ups using various refined shear deformation th...
A general analytical model based on shear-deformable beam theory has been developed to study the fle...
A general analytical model based on shear-deformable beam theory has been developed to study the fle...
Static behavior of composite beams with arbitrary lay-ups using various refined shear deformation th...