In this paper, we present a spectral finite element model (SFEM) using an efficient and accurate layerwise (zigzag) theory, which is applicable for wave propagation analysis of highly inhomogeneous laminated composite and sandwich beams. The theory assumes a layerwise linear variation superimposed with a global third-order variation across the thickness for the axial displacement. The conditions of zero transverse shear stress at the top and bottom and its continuity at the layer interfaces are subsequently enforced to make the number of primary unknowns independent of the number of layers, thereby making the theory as efficient as the first-order shear deformation theory (FSDT). The spectral element developed is validated by comparing the ...
A new time-domain spectral element with nine degrees of freedom per node is formulated based on high...
In this paper, spectral finite element method is employed to analyse the wave propagation behavior i...
Available online 10 July 2023The paper presents a higher order laminate model with sub-lamination ca...
In this paper, we present a spectral finite element model (SFEM) using an efficient and accurate lay...
A frequency domain spectral finite element formulation is presented for the wave propagation analysi...
A spectral finite element model (SFEM) for analysis of axial–flexural–shear coupled wave propagation...
This paper considers elastic wave propagation and vibration transmission in lightweight composite st...
A spectral finite element model (SFEM) is developed to study the effect of wave scattering and power...
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 spectrally formulated element that has three degrees of freedom (axial motion, transverse motion a...
A spectrally formulated element that has three degrees of freedom (axial motion, transverse motion a...
Wave propagation in orthotropic layered composite media due to high frequency impact loading is stud...
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...
A new time-domain spectral element with nine degrees of freedom per node is formulated based on high...
In this paper, spectral finite element method is employed to analyse the wave propagation behavior i...
Available online 10 July 2023The paper presents a higher order laminate model with sub-lamination ca...
In this paper, we present a spectral finite element model (SFEM) using an efficient and accurate lay...
A frequency domain spectral finite element formulation is presented for the wave propagation analysi...
A spectral finite element model (SFEM) for analysis of axial–flexural–shear coupled wave propagation...
This paper considers elastic wave propagation and vibration transmission in lightweight composite st...
A spectral finite element model (SFEM) is developed to study the effect of wave scattering and power...
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 spectrally formulated element that has three degrees of freedom (axial motion, transverse motion a...
A spectrally formulated element that has three degrees of freedom (axial motion, transverse motion a...
Wave propagation in orthotropic layered composite media due to high frequency impact loading is stud...
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...
A new time-domain spectral element with nine degrees of freedom per node is formulated based on high...
In this paper, spectral finite element method is employed to analyse the wave propagation behavior i...
Available online 10 July 2023The paper presents a higher order laminate model with sub-lamination ca...