The forced response of two-dimensional, infinite, homogenous media subjected to time harmonic loading is treated. The approach starts with the wave and the finite element (WFE) method where a small segment of a homogeneous medium is modelled using commercial or in-house finite element (FE) packages. The approach is equally applicable to periodic structures with a periodic cell being modelled. This relatively small model is then used, along with periodicity conditions, to formulate an eigenvalue problem whose solution yields the wave characteristics of the whole medium. The eigenvalue problem involves the excitation frequency and the wavenumbers (or propagation constants) in the two directions. The wave characteristics of the medium are then...
The wave and finite element (WFE) method is a numerical approach to the calculation of the wave prop...
The prediction of the response of waveguides to time-harmonic base excitations has many applications...
The purpose of this work is to present a general method for the numerical analysis of wavepropagatio...
The forced response of waveguides subjected to time harmonic loading is treated. The approach starts...
International audienceThe wave finite element method (WFE) has been developed originally for one dim...
A method is described by which the dispersion relations for a two-dimensional structural component c...
International audienceThe wave finite element (WFE) method is investigated to describe the dynamic b...
A method is described by which the dispersion relations for a two-dimensional structural component c...
Many structural components can be regarded as waveguides. They are uniform in one direction so that ...
International audienceA finite element-based approach is proposed to compute the time response of in...
International audienceThe wave finite element method has been developed for waveguides and periodic ...
Wave propagation in anisotropic inhomogeneous layered media due to high frequency impact loading is ...
International audienceThis paper proposes a new method, in the frequency domain, to define absorbing...
Ming-Her Shen Dynamic response of a multi-layer elastic medium subjected to harmonic surface loading...
An approximate spectral element (SE) is developed to model isotropic inhomogeneous layered media. As...
The wave and finite element (WFE) method is a numerical approach to the calculation of the wave prop...
The prediction of the response of waveguides to time-harmonic base excitations has many applications...
The purpose of this work is to present a general method for the numerical analysis of wavepropagatio...
The forced response of waveguides subjected to time harmonic loading is treated. The approach starts...
International audienceThe wave finite element method (WFE) has been developed originally for one dim...
A method is described by which the dispersion relations for a two-dimensional structural component c...
International audienceThe wave finite element (WFE) method is investigated to describe the dynamic b...
A method is described by which the dispersion relations for a two-dimensional structural component c...
Many structural components can be regarded as waveguides. They are uniform in one direction so that ...
International audienceA finite element-based approach is proposed to compute the time response of in...
International audienceThe wave finite element method has been developed for waveguides and periodic ...
Wave propagation in anisotropic inhomogeneous layered media due to high frequency impact loading is ...
International audienceThis paper proposes a new method, in the frequency domain, to define absorbing...
Ming-Her Shen Dynamic response of a multi-layer elastic medium subjected to harmonic surface loading...
An approximate spectral element (SE) is developed to model isotropic inhomogeneous layered media. As...
The wave and finite element (WFE) method is a numerical approach to the calculation of the wave prop...
The prediction of the response of waveguides to time-harmonic base excitations has many applications...
The purpose of this work is to present a general method for the numerical analysis of wavepropagatio...