The frequency values obtained by using two-degree-of-freedom per node and four-degree-of-freedom per node elements for uniform, stepped, and continuous beams are compared for various boundary conditions to demonstrate the superior performance of the four-degree-of-freedom per node element. The stiffness and mass matrices for the element are given in explicit form
The classical 8-node iso-parametric element uses parametric shape functions for its formulation. Thi...
A pre-twisted beam element based on approximation of displacements in fixed directions is presented....
This report investigates the application of transmission Matrices to determine natural frequencies o...
The dynamic behaviour of a structure is of great importance in engineering which is necessary to to ...
An approach to analyzing structures by using beam elements is developed with adaptive displacement i...
The forced frequency analysis is very important in the design of automotive structures. In particula...
"Simple and higher-order difference methods for the solution for the natural frequencies of vibratio...
Theoretically, the frequency based substructuring (FBS) method can be used to predict the dynamic be...
A technique is presented whereby the standard finite element approximations used in vibration analys...
The numerical evaluation of high-order modes of a uniform Euler-Bernoulli beam has been studied by r...
Theoretical derivations of the effect of transverse shear and rotary inertia on the frequencies of a...
Support stiffness of a beam is a measure of the ability of the support to resist deformation (transl...
The natural frequencies of continuous systems depend on the governing partial differential equation ...
This work deals with free transverse vibration characteristics of an Euler-Bernoulli stepped beam re...
This paper presents a simplified finite element (FE) methodology for solving accurately beam models ...
The classical 8-node iso-parametric element uses parametric shape functions for its formulation. Thi...
A pre-twisted beam element based on approximation of displacements in fixed directions is presented....
This report investigates the application of transmission Matrices to determine natural frequencies o...
The dynamic behaviour of a structure is of great importance in engineering which is necessary to to ...
An approach to analyzing structures by using beam elements is developed with adaptive displacement i...
The forced frequency analysis is very important in the design of automotive structures. In particula...
"Simple and higher-order difference methods for the solution for the natural frequencies of vibratio...
Theoretically, the frequency based substructuring (FBS) method can be used to predict the dynamic be...
A technique is presented whereby the standard finite element approximations used in vibration analys...
The numerical evaluation of high-order modes of a uniform Euler-Bernoulli beam has been studied by r...
Theoretical derivations of the effect of transverse shear and rotary inertia on the frequencies of a...
Support stiffness of a beam is a measure of the ability of the support to resist deformation (transl...
The natural frequencies of continuous systems depend on the governing partial differential equation ...
This work deals with free transverse vibration characteristics of an Euler-Bernoulli stepped beam re...
This paper presents a simplified finite element (FE) methodology for solving accurately beam models ...
The classical 8-node iso-parametric element uses parametric shape functions for its formulation. Thi...
A pre-twisted beam element based on approximation of displacements in fixed directions is presented....
This report investigates the application of transmission Matrices to determine natural frequencies o...