Add to ORKGIn this paper, a fundamental framework of micromechanics for predicting the effective properties of a composite is generalized to include the interface energy effect. In this framework, both the interface constitutive relations for multi-phase hyperelastic solids at finite deformation and the Lagrangian and Eulerian descriptions of the generalized Young-Laplace equations are presented. Then, by taking into account the change of the "residual" elastic field due to the change of configuration, the difference of the governing equations across the interface is derived. A discussion of the infinitesimal deformation approximation of these governing equations is also given, and analytical expressions of the size-dependent effective modul...
Size-dependence is well observed for metal matrix composites, however the classical micromechanical ...
International audienceClassical micromechanics approaches for heterogeneous media assume perfect bon...
This paper investigates the nanoscale effect on the effective bulk modulus of nanoparticle-reinforce...
In this paper, a fundamental framework of micromechanics for predicting the effective properties of ...
In this paper, the change of the elastic fields induced by the interface energies and the interface ...
The interface energy theory developed by Huang et al. is further extended to incorporate the effect ...
The interface energy theory developed by Huang et al. is further extended to incorporate the effect ...
Currently, the advancement of nanotechnology provides new insights into the structures with the char...
The objective of this contribution is to explain the size effect in composites due to the interfacia...
The surface/interface energy theory based on three configurations proposed by Huang et al. is used t...
Nowadays, since the materials science and technique have been further advanced to the characteristic...
The fundamental framework of micromechanical procedure is generalized to take into account the surfa...
Experimental observations have shown the size-dependent residual surface stresses on spherical nanop...
Classical micromechanical methods for calculating the effective moduli of a heterogeneous material a...
Nanocomposite materials hold the power to revitalize and revolutionize the field of composit...
Size-dependence is well observed for metal matrix composites, however the classical micromechanical ...
International audienceClassical micromechanics approaches for heterogeneous media assume perfect bon...
This paper investigates the nanoscale effect on the effective bulk modulus of nanoparticle-reinforce...
In this paper, a fundamental framework of micromechanics for predicting the effective properties of ...
In this paper, the change of the elastic fields induced by the interface energies and the interface ...
The interface energy theory developed by Huang et al. is further extended to incorporate the effect ...
The interface energy theory developed by Huang et al. is further extended to incorporate the effect ...
Currently, the advancement of nanotechnology provides new insights into the structures with the char...
The objective of this contribution is to explain the size effect in composites due to the interfacia...
The surface/interface energy theory based on three configurations proposed by Huang et al. is used t...
Nowadays, since the materials science and technique have been further advanced to the characteristic...
The fundamental framework of micromechanical procedure is generalized to take into account the surfa...
Experimental observations have shown the size-dependent residual surface stresses on spherical nanop...
Classical micromechanical methods for calculating the effective moduli of a heterogeneous material a...
Nanocomposite materials hold the power to revitalize and revolutionize the field of composit...
Size-dependence is well observed for metal matrix composites, however the classical micromechanical ...
International audienceClassical micromechanics approaches for heterogeneous media assume perfect bon...
This paper investigates the nanoscale effect on the effective bulk modulus of nanoparticle-reinforce...