Add to ORKGIn this paper, a reduced formulation for the Wave Finite Element Method is used to study wave dispersion characteristics of a composite beam on a broadband frequency range. The proposed method efficiency is discussed and high-order propagating waves behaviour is describedstatus: publishe
Dispersion curves for waveguide structures are an important prerequisite for the implementation of g...
In this paper, a spectrally formulated wavelet finite element is developed and is used to study coup...
The dispersive properties of high order finite element schemes are analyzed in the setting of the He...
This paper presents an improved numerical strategy for the broadband analysis of wave propagation in...
This paper presents advanced-kinematics beam models to compute the dispersion characteristics of one...
International audienceThe analysis of wave propagation problems in linear damped media must take int...
This volume includes articles on the mathematical modeling and numerical simulation of various wave ...
This paper presents an improved numerical strategy for the broadband analysis of wave propagation in...
The efficiency of numerical methods for wave propagation analysis is essential, as very fine spatial...
In this paper, the propagation of high-order waves in a sandwich plate made of transverse isotropic ...
An efficient numerical strategy to compute the higher-order dispersion parameters of optical wavegui...
Modelling the dynamic and acoustic behaviour of structurally advanced components (e.g. composites, l...
One approach to the numerical analysis of complex waveguides is the Wave Finite Element (WFE) method...
A waveguide model for spectral analysis of finite composite structures based on higher-order shear d...
A spectral finite element model (SFEM) is developed to study the effect of wave scattering and power...
Dispersion curves for waveguide structures are an important prerequisite for the implementation of g...
In this paper, a spectrally formulated wavelet finite element is developed and is used to study coup...
The dispersive properties of high order finite element schemes are analyzed in the setting of the He...
This paper presents an improved numerical strategy for the broadband analysis of wave propagation in...
This paper presents advanced-kinematics beam models to compute the dispersion characteristics of one...
International audienceThe analysis of wave propagation problems in linear damped media must take int...
This volume includes articles on the mathematical modeling and numerical simulation of various wave ...
This paper presents an improved numerical strategy for the broadband analysis of wave propagation in...
The efficiency of numerical methods for wave propagation analysis is essential, as very fine spatial...
In this paper, the propagation of high-order waves in a sandwich plate made of transverse isotropic ...
An efficient numerical strategy to compute the higher-order dispersion parameters of optical wavegui...
Modelling the dynamic and acoustic behaviour of structurally advanced components (e.g. composites, l...
One approach to the numerical analysis of complex waveguides is the Wave Finite Element (WFE) method...
A waveguide model for spectral analysis of finite composite structures based on higher-order shear d...
A spectral finite element model (SFEM) is developed to study the effect of wave scattering and power...
Dispersion curves for waveguide structures are an important prerequisite for the implementation of g...
In this paper, a spectrally formulated wavelet finite element is developed and is used to study coup...
The dispersive properties of high order finite element schemes are analyzed in the setting of the He...