Add to ORKGWe study the interaction of highly nonlinear solitary waves propagating in granular crystals with an adjacent linear elastic medium. We investigate the effects of interface dynamics on the reflection of incident waves and on the formation of primary and secondary reflected waves. Experimental tests are performed to correlate the linear medium geometry, materials, and mass with the formation and propagation of reflected waves. We compare the experimental results with theoretical analysis based on the long-wavelength approximation and with numerical predictions obtained from discrete particle models. Experimental results are found to be in agreement with theoretical analysis and numerical simulations. This preliminary study establishes the fo...
We provide a quantitative characterization of dissipative effects in one-dimensional granular crysta...
We study solitary wave propagation in 1D granular crystals with Hertz-like interaction potentials. W...
We study the propagation of highly nonlinear waves in a branched (Y-shaped) granular crystal compose...
We study the interaction of highly nonlinear solitary waves propagating in granular crystals with an...
The interaction of a solitary wave with an interface formed by two strongly nonlinear noncohesive gr...
AbstractWe investigate the reflection of highly nonlinear solitary waves in one-dimensional granular...
Granular materials exhibit a strongly nonlinear behavior affecting the propagation of energy and inf...
We investigate the reflection of highly nonlinear solitary waves in one-dimensional granular crystal...
AbstractThis paper describes the coupling mechanism between highly nonlinear solitary waves propagat...
This project aims at introducing and testing a new method of Non-Destructive Evaluation (NDE) and S...
We use experiments, numerical simulations, and theoretical analysis to investigate the propagation o...
We perform measurements, numerical simulations, and quantitative comparisons with available theory o...
We investigate the propagation of highly nonlinear solitary waves in heterogeneous, periodic granula...
This paper reports a fundamental study of the coupling between highly nonlinear waves, generated in ...
We provide a quantitative characterization of dissipative effects in one-dimensional granular crysta...
We study solitary wave propagation in 1D granular crystals with Hertz-like interaction potentials. W...
We study the propagation of highly nonlinear waves in a branched (Y-shaped) granular crystal compose...
We study the interaction of highly nonlinear solitary waves propagating in granular crystals with an...
The interaction of a solitary wave with an interface formed by two strongly nonlinear noncohesive gr...
AbstractWe investigate the reflection of highly nonlinear solitary waves in one-dimensional granular...
Granular materials exhibit a strongly nonlinear behavior affecting the propagation of energy and inf...
We investigate the reflection of highly nonlinear solitary waves in one-dimensional granular crystal...
AbstractThis paper describes the coupling mechanism between highly nonlinear solitary waves propagat...
This project aims at introducing and testing a new method of Non-Destructive Evaluation (NDE) and S...
We use experiments, numerical simulations, and theoretical analysis to investigate the propagation o...
We perform measurements, numerical simulations, and quantitative comparisons with available theory o...
We investigate the propagation of highly nonlinear solitary waves in heterogeneous, periodic granula...
This paper reports a fundamental study of the coupling between highly nonlinear waves, generated in ...
We provide a quantitative characterization of dissipative effects in one-dimensional granular crysta...
We study solitary wave propagation in 1D granular crystals with Hertz-like interaction potentials. W...
We study the propagation of highly nonlinear waves in a branched (Y-shaped) granular crystal compose...