We study the problem of impact-induced shock wave propagation through a model one-dimensional heterogeneous medium. This medium is made of a model material with spatially varying parameters such that it is heterogeneous to shock waves but homogeneous to elastic waves. Using the jump conditions and maximal dissipation criteria, we obtain the exact solution to the shock propagation problem. We use it to study how the nature of the heterogeneity changes material response, the structure of the shock front and the dissipation
Shock waves (SW) in "gas - solid particles" mixtures and in porous elastoplastic materials...
Hypervelocity impacts into structures produce shock waves propagating through the colliding bodies. ...
Asymptotic evolution laws for plane dilatational shock waves travelling in simple materials with mem...
We study the problem of impact-induced shock wave propagation through a model one-dimensional hetero...
Continuum mixture theory and mesoscale modeling are applied to describe the behavior of shock-loaded...
The investigation of the heterogeneous material response on microscopic level at a high speed load i...
The field of shock physics as a whole has only recently begun to pay particular attention to modelin...
Wave dispersion in heterogeneous solids due to scattering within the microstructure is examined. Und...
Problems of propagation of plane and spherical waves in a nonlinearly compressible medium with linea...
As a shock wave passes through a material interface into a region of higher density (the receiver ma...
Systematic experimental work [S. Zhuang, G. Ravichandran, D. Grady, J. Mech. Phys. Solids 51 (2003) ...
AbstractCertain types of structures and materials, such as engineered multi-scale systems and commin...
The derivation of the equation of one-dimensional movement of a solitary shock wave is given. This d...
AbstractThe paper describes briefly the problem of elastic-plastic shock wave propagation in solids....
Recent experiments reveals how dynamic fracture is characterized by the interplay of crack front wit...
Shock waves (SW) in "gas - solid particles" mixtures and in porous elastoplastic materials...
Hypervelocity impacts into structures produce shock waves propagating through the colliding bodies. ...
Asymptotic evolution laws for plane dilatational shock waves travelling in simple materials with mem...
We study the problem of impact-induced shock wave propagation through a model one-dimensional hetero...
Continuum mixture theory and mesoscale modeling are applied to describe the behavior of shock-loaded...
The investigation of the heterogeneous material response on microscopic level at a high speed load i...
The field of shock physics as a whole has only recently begun to pay particular attention to modelin...
Wave dispersion in heterogeneous solids due to scattering within the microstructure is examined. Und...
Problems of propagation of plane and spherical waves in a nonlinearly compressible medium with linea...
As a shock wave passes through a material interface into a region of higher density (the receiver ma...
Systematic experimental work [S. Zhuang, G. Ravichandran, D. Grady, J. Mech. Phys. Solids 51 (2003) ...
AbstractCertain types of structures and materials, such as engineered multi-scale systems and commin...
The derivation of the equation of one-dimensional movement of a solitary shock wave is given. This d...
AbstractThe paper describes briefly the problem of elastic-plastic shock wave propagation in solids....
Recent experiments reveals how dynamic fracture is characterized by the interplay of crack front wit...
Shock waves (SW) in "gas - solid particles" mixtures and in porous elastoplastic materials...
Hypervelocity impacts into structures produce shock waves propagating through the colliding bodies. ...
Asymptotic evolution laws for plane dilatational shock waves travelling in simple materials with mem...