The objective of this research is to study the free vibration of a cantilever Euler-Bernoulli beam carrying a point mass with moment of inertia at the free end using the spectral element method (SEM). Typically, the shape (or interpolation) functions used in the Spectral element method are derived from exact solutions of the governing differential equations of motion in the frequency domain. The beam was discretized by a single spectral element which was connected by a point mass at the free end. The dynamic stiffness matrix of the beam is formulated in frequency domain by considering compatibility conditions at the additional mass position. Then, the first three natural frequencies of the cantilever beam are determined. After the validatio...
The bending phenomenon is common in simply supported beams as the beams are subjected to flexural lo...
The problem of free vibration of Timoshenko beams with elastically supported ends can be solved by ...
Beams are very common types of structural components and it can be classified according to their geo...
The paper describes free vibration of Timoshenko beam by using spectral element method. Based on the...
The free vibration analyses of multiple-stepped Bernoulli-Euler beam with various boundary condition...
In this study, a spectral element method (SEM) is employed to predict the free vibration of a Euler-...
The present work describes the spectral finite element formulation and the solution of Bernoulli-Eul...
When the structure vibrates with high frequency, the finite element method needs to be modeled with ...
Beam is an inclined or horizontal structural member casing a distance among one or additional suppor...
The free vibration analysis of a curved beam with various boundary conditions has been studied by ma...
The composite beam may be of the forms of uniform, non-uniform or tapered. Free vibration of uniform...
This paper presents a formulation of an approximate spectral element for uniform and tapered rotatin...
An analytical method to study the dynamic characteristic of free vibration of beams carrying any typ...
In this article, vibration analysis of an Euler-Bernoulli beam resting on a Pasternak-type foundatio...
Using differential transformation method, the analysis of the free vibration of a prismatic Euler-Be...
The bending phenomenon is common in simply supported beams as the beams are subjected to flexural lo...
The problem of free vibration of Timoshenko beams with elastically supported ends can be solved by ...
Beams are very common types of structural components and it can be classified according to their geo...
The paper describes free vibration of Timoshenko beam by using spectral element method. Based on the...
The free vibration analyses of multiple-stepped Bernoulli-Euler beam with various boundary condition...
In this study, a spectral element method (SEM) is employed to predict the free vibration of a Euler-...
The present work describes the spectral finite element formulation and the solution of Bernoulli-Eul...
When the structure vibrates with high frequency, the finite element method needs to be modeled with ...
Beam is an inclined or horizontal structural member casing a distance among one or additional suppor...
The free vibration analysis of a curved beam with various boundary conditions has been studied by ma...
The composite beam may be of the forms of uniform, non-uniform or tapered. Free vibration of uniform...
This paper presents a formulation of an approximate spectral element for uniform and tapered rotatin...
An analytical method to study the dynamic characteristic of free vibration of beams carrying any typ...
In this article, vibration analysis of an Euler-Bernoulli beam resting on a Pasternak-type foundatio...
Using differential transformation method, the analysis of the free vibration of a prismatic Euler-Be...
The bending phenomenon is common in simply supported beams as the beams are subjected to flexural lo...
The problem of free vibration of Timoshenko beams with elastically supported ends can be solved by ...
Beams are very common types of structural components and it can be classified according to their geo...