Add to ORKGInternational audienceDuctile metals subjected to a high strain rate tensile loading are known to break by coalescence of voids. An analytical solution for the evolution of the cavity is proposed for compressible visco-plastic materials. Comparisons with FE calculations are proposed
Cavitation instabilities have been found for a single void in a ductile metal stressed under high tr...
Cavitation instabilities have been found for a single void in a ductile metal stressed under high tr...
In Part I of this work we derived a fairly general theory of cavitation in elastomeric solids based ...
International audienceDuctile metals subjected to a high strain rate tensile loading are known to br...
Dynamic cavitation is known to be a typical failure mechanism in rubber-like solids. While the mecha...
Dynamic cavitation is known to be a typical failure mechanism in rubber-like solids. While the mecha...
Dynamic cavitation is known to be a typical failure mechanism in rubber-like solids. While the mecha...
In this paper, we extend the dynamic spherical cavity expansion model for rate-independent materials...
In this paper, we extend the dynamic spherical cavity expansion model for rate-independent materials...
In this paper, we extend the dynamic spherical cavity expansion model for rate-independent materials...
This paper discusses the growth of a pre-existing void in a nonlinear viscoelastic material subjecte...
AbstractMaterial failure analysis based on the constitutive model of isotropic softening hyperelasti...
AbstractThis work deals with fracture of elastomers by cavitation. So, tension tests were achieved o...
Cavitation in rubber-like materials describes sudden void growth of an initially voided material und...
AbstractBeyond pressure-sensitivity, plastic deformation of glassy polymers exhibits intrinsic softe...
Cavitation instabilities have been found for a single void in a ductile metal stressed under high tr...
Cavitation instabilities have been found for a single void in a ductile metal stressed under high tr...
In Part I of this work we derived a fairly general theory of cavitation in elastomeric solids based ...
International audienceDuctile metals subjected to a high strain rate tensile loading are known to br...
Dynamic cavitation is known to be a typical failure mechanism in rubber-like solids. While the mecha...
Dynamic cavitation is known to be a typical failure mechanism in rubber-like solids. While the mecha...
Dynamic cavitation is known to be a typical failure mechanism in rubber-like solids. While the mecha...
In this paper, we extend the dynamic spherical cavity expansion model for rate-independent materials...
In this paper, we extend the dynamic spherical cavity expansion model for rate-independent materials...
In this paper, we extend the dynamic spherical cavity expansion model for rate-independent materials...
This paper discusses the growth of a pre-existing void in a nonlinear viscoelastic material subjecte...
AbstractMaterial failure analysis based on the constitutive model of isotropic softening hyperelasti...
AbstractThis work deals with fracture of elastomers by cavitation. So, tension tests were achieved o...
Cavitation in rubber-like materials describes sudden void growth of an initially voided material und...
AbstractBeyond pressure-sensitivity, plastic deformation of glassy polymers exhibits intrinsic softe...
Cavitation instabilities have been found for a single void in a ductile metal stressed under high tr...
Cavitation instabilities have been found for a single void in a ductile metal stressed under high tr...
In Part I of this work we derived a fairly general theory of cavitation in elastomeric solids based ...