Add to ORKGAbstract: Finite strip analysis is used for evaluation of natural frequencies and modes of symmetrical, cylindrical honeycomb panels. First, the strip element matrices are given. The convergence of high-order natural frequencies versus strip division and the constraint conditions at the straight ends are discussed in detail. It is found that some natural frequencies predicted are independent of the strip division, and the finite strip analysis always gives one more frequencies than do the analytical solutions. All of these problems are discussed in detail. Key Words: Cylindrical honeycomb shell, free vibration, finite strip analysis 1
In this article a two-node finite strip with eight degrees of freedom for free vibration analysis of...
ABSTRACT: Free vibration analysis of laminated cylindrical shells with arbitrary classical boundary ...
An analytical framework has been proposed to analyze the effect of random structural irregularity in...
The finite strip solution for the free vibrations of cylindrical panels with any homogeneous boundar...
A unified approach for the vibration analysis of curved or straight prismatic plates and bridges and...
The finite strip solution for the free vibrations of cylindrical panels with any homogeneous boundar...
The free flexural vibration of symmetric honeycomb sandwich panel with 4 sides simply supported is a...
The natural frequencies of thin, flat-walled structures with different boundary conditions are analy...
The natural frequencies of thin, flat-walled structures with different boundary conditions are analy...
The finite strip method is extended to the free vibration of rectangular plates continuous in one or...
The present paper shows a comparison between classical two-dimensional (2D) and three-dimensional (3...
The present paper shows a comparison between classical two-dimensional (2D) and three-dimensional (3...
The present paper shows a comparison between classical two-dimensional (2D) and three-dimensional (3...
The present paper shows a comparison between classical two-dimensional (2D) and three-dimensional (3...
In this paper, the linear eigen buckling and vibration analysis of various composite laminated struc...
In this article a two-node finite strip with eight degrees of freedom for free vibration analysis of...
ABSTRACT: Free vibration analysis of laminated cylindrical shells with arbitrary classical boundary ...
An analytical framework has been proposed to analyze the effect of random structural irregularity in...
The finite strip solution for the free vibrations of cylindrical panels with any homogeneous boundar...
A unified approach for the vibration analysis of curved or straight prismatic plates and bridges and...
The finite strip solution for the free vibrations of cylindrical panels with any homogeneous boundar...
The free flexural vibration of symmetric honeycomb sandwich panel with 4 sides simply supported is a...
The natural frequencies of thin, flat-walled structures with different boundary conditions are analy...
The natural frequencies of thin, flat-walled structures with different boundary conditions are analy...
The finite strip method is extended to the free vibration of rectangular plates continuous in one or...
The present paper shows a comparison between classical two-dimensional (2D) and three-dimensional (3...
The present paper shows a comparison between classical two-dimensional (2D) and three-dimensional (3...
The present paper shows a comparison between classical two-dimensional (2D) and three-dimensional (3...
The present paper shows a comparison between classical two-dimensional (2D) and three-dimensional (3...
In this paper, the linear eigen buckling and vibration analysis of various composite laminated struc...
In this article a two-node finite strip with eight degrees of freedom for free vibration analysis of...
ABSTRACT: Free vibration analysis of laminated cylindrical shells with arbitrary classical boundary ...
An analytical framework has been proposed to analyze the effect of random structural irregularity in...