Add to ORKGThe strongly nonlinear interaction between elements in discrete materials (e.g., grains in granular media) is responsible for their unique wave propagation properties. The paper will present an experimental observation of impulse energy confinement and the resultant disintegration of shock and solitary waves by discrete materials with strongly nonlinear interaction between elements. Experiments and numerical calculations will be presented for alternating ensembles of high-modulus vs orders of magnitude lower-modulus chains of spheres of different masses. The trapped energy is contained within the “softer” portions of the composite chain and is slowly released in the form of weak, separated pulses over an extended period of time. This effect...
Strongly nonlinear phononic crystals were assembled from a chain of Parylene-C coated steel spheres ...
We investigate the propagation of highly nonlinear solitary waves in heterogeneous, periodic granula...
We employ an evolutionary algorithm to investigate the optimal design of composite protectors using ...
The strongly nonlinear interaction between elements in discrete materials (e.g., grains in granular ...
We report the first experimental observation of impulse confinement and the disintegration of shock ...
New aspects of strongly nonlinear wave and structural phenomena in granular media are developed nume...
We report the first experimental observation of highly nonlinear signals propagating in a two dimens...
We study stress wave mitigation in one- and two-dimensional granular media employing evolutionary al...
The propagation of highly nonlinear signals in a branched two-dimensional granular system was invest...
Granular materials exhibit a strongly nonlinear behavior affecting the propagation of energy and inf...
We use experiments, numerical simulations, and theoretical analysis to investigate the propagation o...
We study the interaction of highly nonlinear solitary waves propagating in granular crystals with an...
In this work we investigate granular chains, which are one-dimensional systems of discrete macroscop...
Strongly nonlinear waves were investigated experimentally, numerically and ana- lytically in two-mas...
Strongly nonlinear phononic crystals were assembled from a chain of Parylene-C coated steel spheres ...
We investigate the propagation of highly nonlinear solitary waves in heterogeneous, periodic granula...
We employ an evolutionary algorithm to investigate the optimal design of composite protectors using ...
The strongly nonlinear interaction between elements in discrete materials (e.g., grains in granular ...
We report the first experimental observation of impulse confinement and the disintegration of shock ...
New aspects of strongly nonlinear wave and structural phenomena in granular media are developed nume...
We report the first experimental observation of highly nonlinear signals propagating in a two dimens...
We study stress wave mitigation in one- and two-dimensional granular media employing evolutionary al...
The propagation of highly nonlinear signals in a branched two-dimensional granular system was invest...
Granular materials exhibit a strongly nonlinear behavior affecting the propagation of energy and inf...
We use experiments, numerical simulations, and theoretical analysis to investigate the propagation o...
We study the interaction of highly nonlinear solitary waves propagating in granular crystals with an...
In this work we investigate granular chains, which are one-dimensional systems of discrete macroscop...
Strongly nonlinear waves were investigated experimentally, numerically and ana- lytically in two-mas...
Strongly nonlinear phononic crystals were assembled from a chain of Parylene-C coated steel spheres ...
We investigate the propagation of highly nonlinear solitary waves in heterogeneous, periodic granula...
We employ an evolutionary algorithm to investigate the optimal design of composite protectors using ...