The dynamic stiffness matrix of a composite beam that exhibits both geometric and material coupling between bending and torsional motions is developed and subsequently used to investigate its free vibration characteristics. The formulation is based on Hamilton’s principle leading to the governing differential equations of motion in free vibration, which are solved in closed analytical form for harmonic oscillation. By applying the boundary conditions the frequency dependent dynamic stiffness matrix that relates the amplitudes of loads to those of responses is then derived. Finally the Wittrick–Williams algorithm is applied to the resulting dynamic stiffness matrix to compute the natural frequencies and mode shapes of an illustrative example...
The dynamic stiffness matrix for beams which exhibit coupling between axial and bending deformations...
The dynamic behaviour of a composite wing structure is studied. By computing strain-energy, kinetic ...
Theoretical and experimental investigations of the static and dynamic behaviour of thin-walled struc...
The dynamic stiffness matrix of a composite beam that exhibits both geometric and material coupling ...
This thesis focuses on two types of original research, of which the first one (Section A) can be cat...
The dynamic stiffness formulation for both inplane and bending free vibration based on the first ord...
Composite beams have a wide application in building and bridge engineering because of their advantag...
An exact dynamic stiffness method based on higher order shear deformation theory is developed for th...
In linear elasticity, most of the theories of structures in dynamics are governed by partial differe...
With regard to the simulation of structural vibrations and consequent aeroelastic loads in aircraft ...
A procedure for developing the dynamic stiffness matrix of a completely free laminated composite pla...
The paper addresses the in-plane free vibration analysis of rotating beams using an exact dynamic st...
The dynamic stiffness method for composite plate elements based on the first order shear deformation...
Investigations concerning the dynamic response of composite beams with partial interaction are scarc...
In the treatment of the structural dynamic problem of composite materials, two alternate types of fo...
The dynamic stiffness matrix for beams which exhibit coupling between axial and bending deformations...
The dynamic behaviour of a composite wing structure is studied. By computing strain-energy, kinetic ...
Theoretical and experimental investigations of the static and dynamic behaviour of thin-walled struc...
The dynamic stiffness matrix of a composite beam that exhibits both geometric and material coupling ...
This thesis focuses on two types of original research, of which the first one (Section A) can be cat...
The dynamic stiffness formulation for both inplane and bending free vibration based on the first ord...
Composite beams have a wide application in building and bridge engineering because of their advantag...
An exact dynamic stiffness method based on higher order shear deformation theory is developed for th...
In linear elasticity, most of the theories of structures in dynamics are governed by partial differe...
With regard to the simulation of structural vibrations and consequent aeroelastic loads in aircraft ...
A procedure for developing the dynamic stiffness matrix of a completely free laminated composite pla...
The paper addresses the in-plane free vibration analysis of rotating beams using an exact dynamic st...
The dynamic stiffness method for composite plate elements based on the first order shear deformation...
Investigations concerning the dynamic response of composite beams with partial interaction are scarc...
In the treatment of the structural dynamic problem of composite materials, two alternate types of fo...
The dynamic stiffness matrix for beams which exhibit coupling between axial and bending deformations...
The dynamic behaviour of a composite wing structure is studied. By computing strain-energy, kinetic ...
Theoretical and experimental investigations of the static and dynamic behaviour of thin-walled struc...