This work presents an approach for using a modal analysis on an equivalent finite cylindrical model, to predict the elastic waves in infinite, isotropic or composite, panels. In the description of the infinite paths, an analogy, between the classical topologies of a straight line and a circumference, is exploited and tested. Different aspects, concerning the wavemode duality and the discretization and the needed radii of curvature, are investigated to frame the problem and test the robustness of the methodology. The analysis presents a well conditioned problem and solution for any propagation wave angle by transforming the original problem into a simple modal analysis
The use of laminated panels is increasing because they are stiff, light and offer the engineer flexi...
A frequency domain spectral finite element formulation is presented for the wave propagation analysi...
Guided waves are used for the non-destructive evaluation in automotive and aerospace industries. Th...
This work presents an approach for using a modal analysis on an equivalent finite cylindrical model,...
This paper describes a wave finite element method for the numerical prediction of wave characteristi...
Elastic waves used in Structural Health Monitoring systems have strongly dispersive character. There...
A robust procedure for the prediction of the dynamic response of layered panels within a SEA wave-co...
The early detection of failures in structures is a subject of great interest in engineering; several...
This paper deals with a three‐dimensional elasticity investigation of wave propagation in an infinit...
The flexural wave propagation in a homogeneous Isotropic rotating cylindrical panel is investigated ...
In the past dynamic behavior of infinite periodically laminated medium has been studied extensively....
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...
This thesis is about the physics of ultrasonic guided waves in multilayered anisotropic composites. ...
International audienceThis paper highlights a methodology to study the accuracy of classical finite ...
The use of laminated panels is increasing because they are stiff, light and offer the engineer flexi...
A frequency domain spectral finite element formulation is presented for the wave propagation analysi...
Guided waves are used for the non-destructive evaluation in automotive and aerospace industries. Th...
This work presents an approach for using a modal analysis on an equivalent finite cylindrical model,...
This paper describes a wave finite element method for the numerical prediction of wave characteristi...
Elastic waves used in Structural Health Monitoring systems have strongly dispersive character. There...
A robust procedure for the prediction of the dynamic response of layered panels within a SEA wave-co...
The early detection of failures in structures is a subject of great interest in engineering; several...
This paper deals with a three‐dimensional elasticity investigation of wave propagation in an infinit...
The flexural wave propagation in a homogeneous Isotropic rotating cylindrical panel is investigated ...
In the past dynamic behavior of infinite periodically laminated medium has been studied extensively....
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...
This thesis is about the physics of ultrasonic guided waves in multilayered anisotropic composites. ...
International audienceThis paper highlights a methodology to study the accuracy of classical finite ...
The use of laminated panels is increasing because they are stiff, light and offer the engineer flexi...
A frequency domain spectral finite element formulation is presented for the wave propagation analysi...
Guided waves are used for the non-destructive evaluation in automotive and aerospace industries. Th...