Add to ORKGInternational audienceThis work is concerned with a composite whose phases exhibit spherical transverse isotropy. A spherulitic polymer can be suitably modeled as such a composite. The problem of a hollow sphere consisting of a material of spherical transverse isotropy and undergoing shear strain or stress is first solved. The generalized self-consistent scheme is then applied to estimating the effective shear modulus of the composite as the positive root of a quadratic equation
Based on the Mori--Tanaka method and a replacement scheme, a pair of coupled first order differentia...
AbstractA concurrent micromechanical model for predicting nonlinear viscoelastic responses of partic...
Based on the Mori--Tanaka method and a replacement scheme, a pair of coupled first order differentia...
International audienceThe effective transverse shear modulus of a transversely isotropic composite w...
International audienceThe classical generalized self-consistent model (GSCM) is recognized to be sui...
The obvious shortcoming of the generalized self-consistent method (GSCM) is that the effective shear...
AbstractThe classical generalized self-consistent model (GSCM) is recognized to be suitable and effi...
International audienceHill [J. Mech. Phys. Solids 11 (1963) 357, 12 (1964) 199] discovered that, reg...
AbstractUnder investigation is a heterogeneous material consisting of an elastic homogeneous isotrop...
International audienceUnder investigation is a heterogeneous material consisting of an elastic homog...
International audienceMicrostructures possessing local spherical anisotropy are considered in this p...
One of the main specific aspects of continuum micromechanics is related to the fact that one has gen...
In order to overcome the shortcoming of GSCM (generalized self-consistent method), a reformation of ...
A three-phase self-consistent model is developed for particulate composites consisting of spherical ...
computational scheme for estimating the effective elastic properties of a particle reinforced matrix...
Based on the Mori--Tanaka method and a replacement scheme, a pair of coupled first order differentia...
AbstractA concurrent micromechanical model for predicting nonlinear viscoelastic responses of partic...
Based on the Mori--Tanaka method and a replacement scheme, a pair of coupled first order differentia...
International audienceThe effective transverse shear modulus of a transversely isotropic composite w...
International audienceThe classical generalized self-consistent model (GSCM) is recognized to be sui...
The obvious shortcoming of the generalized self-consistent method (GSCM) is that the effective shear...
AbstractThe classical generalized self-consistent model (GSCM) is recognized to be suitable and effi...
International audienceHill [J. Mech. Phys. Solids 11 (1963) 357, 12 (1964) 199] discovered that, reg...
AbstractUnder investigation is a heterogeneous material consisting of an elastic homogeneous isotrop...
International audienceUnder investigation is a heterogeneous material consisting of an elastic homog...
International audienceMicrostructures possessing local spherical anisotropy are considered in this p...
One of the main specific aspects of continuum micromechanics is related to the fact that one has gen...
In order to overcome the shortcoming of GSCM (generalized self-consistent method), a reformation of ...
A three-phase self-consistent model is developed for particulate composites consisting of spherical ...
computational scheme for estimating the effective elastic properties of a particle reinforced matrix...
Based on the Mori--Tanaka method and a replacement scheme, a pair of coupled first order differentia...
AbstractA concurrent micromechanical model for predicting nonlinear viscoelastic responses of partic...
Based on the Mori--Tanaka method and a replacement scheme, a pair of coupled first order differentia...