We study the macroscopic mechanical behavior of materials with microscopic holes or hard inclusions. Specifically, we deal with the effective elastic moduli of composites whose microgeometry consists of either soft or hard isolated inclusions surrounded by an elastic matrix. We approach this problem by taking the stiffness of the inclusion phase to be a complex variable, which we eventually evaluate at the soft or hard limits. Our main result states that there is a certain class of non-physical, negative-definite values of the elastic moduli of the inclusion phase for which the effective tensor does not have infinities or become otherwise singular. We present applications of this result to the estimation of effective moduli and to homoge...
ABSTRACT: The effective elastic moduli of composite materials are investigated in the presence of im...
Inhomogeneously swollen elastomers are an emergent class of materials, comprising elastic matrices w...
We provide a homogenization result for the energy-functional associated with a purely brittle compos...
We study the macroscopic mechanical behavior of materials with microscopic holes or hard inclusions....
We review the theoretical bounds on the effective properties of linear elastic inhomogeneous solids ...
The obvious shortcoming of the generalized self-consistent method (GSCM) is that the effective shear...
We review the theoretical bounds on the effective properties of linear elastic heterogeneous solids ...
Several composite materials used in engineering, such as rocks, ceramic materials, concrete, masonr...
In order to overcome the shortcoming of GSCM (generalized self-consistent method), a reformation of ...
International audienceThis paper is devoted to the derivation of improved bounds for the effective b...
AbstractThis paper is devoted to the derivation of improved bounds for the effective behavior of lin...
We investigate the weakening of elastic materials through randomly distributed circles and cracks nu...
ABSTRACT: The effective elastic moduli of composite materials are investigated in the presence of im...
Inhomogeneously swollen elastomers are an emergent class of materials, comprising elastic matrices w...
We provide a homogenization result for the energy-functional associated with a purely brittle compos...
We study the macroscopic mechanical behavior of materials with microscopic holes or hard inclusions....
We review the theoretical bounds on the effective properties of linear elastic inhomogeneous solids ...
The obvious shortcoming of the generalized self-consistent method (GSCM) is that the effective shear...
We review the theoretical bounds on the effective properties of linear elastic heterogeneous solids ...
Several composite materials used in engineering, such as rocks, ceramic materials, concrete, masonr...
In order to overcome the shortcoming of GSCM (generalized self-consistent method), a reformation of ...
International audienceThis paper is devoted to the derivation of improved bounds for the effective b...
AbstractThis paper is devoted to the derivation of improved bounds for the effective behavior of lin...
We investigate the weakening of elastic materials through randomly distributed circles and cracks nu...
ABSTRACT: The effective elastic moduli of composite materials are investigated in the presence of im...
Inhomogeneously swollen elastomers are an emergent class of materials, comprising elastic matrices w...
We provide a homogenization result for the energy-functional associated with a purely brittle compos...