Add to ORKGThis study describes the dynamic response of a two-dimensional hexagonal packing of uncompressed stainless steel spheres excited by localized impulsive loadings. The dynamics of the system are modeled using the Hertzian normal contact law. After the initial impact strikes the system, a characteristic wave structure emerges and continuously decays as it propagates through the lattice. Using an extension of the binary collision approximation for one-dimensional chains, we predict its decay rate, which compares well with numerical simulations and experimental data. While the hexagonal lattice does not support constant speed traveling waves, we provide scaling relations that characterize the directional power law decay of the wave velocity for ...
AbstractWe simulate the dynamics of impacts on 1D, 2D and 3D arrays of metallic spheres in order to ...
Highly ordered, close packed granular systems present a nonlinear dynamic behavior stemming from the...
We present a mesoscopic approach to granular crystal dynamics, which comprises a three-dimensional f...
This study describes the dynamic response of a two-dimensional hexagonal packing of uncompressed sta...
We studied the dynamic response of a twodimensional square packing of uncompressed stainless steel...
We studied the dynamic response of a two-dimensional square packing of uncompressed stainless steel ...
We study the fundamental dynamic behavior of a special class of ordered granular systems in order to...
This thesis addresses some of the fundamental issues/aspects as well as practical significance of im...
We investigate the propagation and scattering of highly nonlinear waves in granular systems composed...
We study the propagation of elastic stress waves in two-dimensional highly nonlin-ear granular cryst...
We provide a quantitative characterization of dissipative effects in one-dimensional granular crysta...
We simulate the dynamics of impacts on 1D, 2D and 3D arrays of metallic spheres in order to design n...
The present study describes wave propagation characteristics in a weakly disordered two-dimensional ...
AbstractWe simulate the dynamics of impacts on 1D, 2D and 3D arrays of metallic spheres in order to ...
Highly ordered, close packed granular systems present a nonlinear dynamic behavior stemming from the...
We present a mesoscopic approach to granular crystal dynamics, which comprises a three-dimensional f...
This study describes the dynamic response of a two-dimensional hexagonal packing of uncompressed sta...
We studied the dynamic response of a twodimensional square packing of uncompressed stainless steel...
We studied the dynamic response of a two-dimensional square packing of uncompressed stainless steel ...
We study the fundamental dynamic behavior of a special class of ordered granular systems in order to...
This thesis addresses some of the fundamental issues/aspects as well as practical significance of im...
We investigate the propagation and scattering of highly nonlinear waves in granular systems composed...
We study the propagation of elastic stress waves in two-dimensional highly nonlin-ear granular cryst...
We provide a quantitative characterization of dissipative effects in one-dimensional granular crysta...
We simulate the dynamics of impacts on 1D, 2D and 3D arrays of metallic spheres in order to design n...
The present study describes wave propagation characteristics in a weakly disordered two-dimensional ...
AbstractWe simulate the dynamics of impacts on 1D, 2D and 3D arrays of metallic spheres in order to ...
Highly ordered, close packed granular systems present a nonlinear dynamic behavior stemming from the...
We present a mesoscopic approach to granular crystal dynamics, which comprises a three-dimensional f...