Add to ORKGThe elastic modulus of interphase in polymer based nanocomposites is investigated. A new three-dimensional unit cell model has been developed for modeling three constituent phases including particle, interphase and matrix. The elastic modulus of the interphase as a function of radius is then evaluated with the help of mathematical models. The average value of interphase elastic modulus is defined and the effect of interphase thickness and particle and matrix elastic modulus on interphase is investigated
This paper presents the mechanical properties of carbon nanocone-based polymer composites in the pre...
The degradation mechanism of mechanical properties of a polymer nanocomposite consisting of agglomer...
A molecular dynamics approach based on a small-deformation mechanical response has been extended fro...
The elastic modulus of intephase in polymer based nanocomposites is investigated. A new three-dimens...
A new model to evaluate the elastic modulus of polymer nanocomposites is developed with emphasising ...
Thin nanocomposite films are gaining increasing significance in flexible and light weight electronic...
Based on Takayanagi's two-phase model, a three-phase model including the matrix, interfacial region,...
Elastic modulus measurement of polymer matrix nano-composites reinforced by platelet nano-clays Poly...
The present work presents a preliminary study on the effect of the filler distribution on the elasti...
Mathematical models are investigated and suggested for the calculation of the elastic stiffness of p...
The properties of interphase in polymer composites are often different from those of bulk polymer ma...
Abstract A two-step technique based on micromechanical models is suggested to determine the influenc...
In this study, the effective elastic modulus (Ec) of a cellulose nanocrystal fiber reinforced polyme...
The available analytical and finite element methods set the values of elastic modulus of nanocomposi...
This paper investigates the nanoscale effect on the effective bulk modulus of nanoparticle-reinforce...
This paper presents the mechanical properties of carbon nanocone-based polymer composites in the pre...
The degradation mechanism of mechanical properties of a polymer nanocomposite consisting of agglomer...
A molecular dynamics approach based on a small-deformation mechanical response has been extended fro...
The elastic modulus of intephase in polymer based nanocomposites is investigated. A new three-dimens...
A new model to evaluate the elastic modulus of polymer nanocomposites is developed with emphasising ...
Thin nanocomposite films are gaining increasing significance in flexible and light weight electronic...
Based on Takayanagi's two-phase model, a three-phase model including the matrix, interfacial region,...
Elastic modulus measurement of polymer matrix nano-composites reinforced by platelet nano-clays Poly...
The present work presents a preliminary study on the effect of the filler distribution on the elasti...
Mathematical models are investigated and suggested for the calculation of the elastic stiffness of p...
The properties of interphase in polymer composites are often different from those of bulk polymer ma...
Abstract A two-step technique based on micromechanical models is suggested to determine the influenc...
In this study, the effective elastic modulus (Ec) of a cellulose nanocrystal fiber reinforced polyme...
The available analytical and finite element methods set the values of elastic modulus of nanocomposi...
This paper investigates the nanoscale effect on the effective bulk modulus of nanoparticle-reinforce...
This paper presents the mechanical properties of carbon nanocone-based polymer composites in the pre...
The degradation mechanism of mechanical properties of a polymer nanocomposite consisting of agglomer...
A molecular dynamics approach based on a small-deformation mechanical response has been extended fro...