A frequency domain spectral finite element formulation is presented for the wave propagation analysis of laminated composite curved beams using the first order shear deformation theory (FSDT) and the classical laminate theory (CLT). The elements are derived from the exact solution of the governing equation of motion in frequency domain, obtained through Fourier transformation of the time domain equation. The formulation is validated by comparing the results for natural frequencies with the published results. The new elements are then employed to perform dispersion and wave propagation analyses of curved composite beams. The numerical results reveal that the wavenumbers predicted by the CLT show large deviation from those of the FSDT even fo...
A three-dimensional spectral element method (SEM) was developed for analysis of Lamb wave propagatio...
A spectral finite element for modeling of wave scattering in laminated composite beam with embedded ...
Wave propagation in a curved composite structure having delamination is simulated using time domain ...
In this paper, spectral finite elements (SFEs) are developed for wave propagation analysis of isotro...
A spectral finite element model (SFEM) for analysis of axial–flexural–shear coupled wave propagation...
In this paper, we present a spectral finite element model (SFEM) using an efficient and accurate lay...
A new spectral plate element (SPE) is developed to analyze wave propagation in anisotropic laminated...
For successful structural health monitoring and structural integrity evaluation of a laminated compo...
A spectral finite element model (SFEM) is developed to study the effect of wave scattering and power...
In this paper, spectral finite element method is employed to analyse the wave propagation behavior i...
A spectrally formulated element that has three degrees of freedom (axial motion, transverse motion a...
This work presents the extension of an existing procedure for evaluating the waveguides and the disp...
This work presents the extension of an existing procedure for evaluating the waveguides and the disp...
Wave propagation in orthotropic layered composite media due to high frequency impact loading is stud...
A spectrally formulated element that has three degrees of freedom (axial motion, transverse motion a...
A three-dimensional spectral element method (SEM) was developed for analysis of Lamb wave propagatio...
A spectral finite element for modeling of wave scattering in laminated composite beam with embedded ...
Wave propagation in a curved composite structure having delamination is simulated using time domain ...
In this paper, spectral finite elements (SFEs) are developed for wave propagation analysis of isotro...
A spectral finite element model (SFEM) for analysis of axial–flexural–shear coupled wave propagation...
In this paper, we present a spectral finite element model (SFEM) using an efficient and accurate lay...
A new spectral plate element (SPE) is developed to analyze wave propagation in anisotropic laminated...
For successful structural health monitoring and structural integrity evaluation of a laminated compo...
A spectral finite element model (SFEM) is developed to study the effect of wave scattering and power...
In this paper, spectral finite element method is employed to analyse the wave propagation behavior i...
A spectrally formulated element that has three degrees of freedom (axial motion, transverse motion a...
This work presents the extension of an existing procedure for evaluating the waveguides and the disp...
This work presents the extension of an existing procedure for evaluating the waveguides and the disp...
Wave propagation in orthotropic layered composite media due to high frequency impact loading is stud...
A spectrally formulated element that has three degrees of freedom (axial motion, transverse motion a...
A three-dimensional spectral element method (SEM) was developed for analysis of Lamb wave propagatio...
A spectral finite element for modeling of wave scattering in laminated composite beam with embedded ...
Wave propagation in a curved composite structure having delamination is simulated using time domain ...