AbstractParticle-reinforced polymers are widely used in load-carrying applications. The effect of particle size on damage development in the polymer is still relatively unexplored. In this study, the effect of glass-sphere size on the damage development in tensile loaded epoxy has been investigated. The diameter of the glass spheres ranged from approximately 0.5–50μm. The first type of damage observed was debonding at the sphere poles, which subsequently grew along the interface between the glass spheres and epoxy matrix. These cracks were observed to kink out into the matrix in the radial direction perpendicular to the applied load. The debonding stresses increased with decreasing sphere diameter, whereas the length to diameter ratio of th...
The effects of particle size of core-shell rubber on the fracture toughness of rubber-modified epoxi...
The size effect is a problem of scaling, which is central to every physical theory. In fluid mechani...
International audienceMotivated by the different uniaxial responses of two actual materials filled w...
AbstractParticle-reinforced polymers are widely used in load-carrying applications. The effect of pa...
The incorporation of inorganic particles into polymeric matrices is a widely used method for toughen...
The effect of particle volume fraction, strain rate and interfacial bonding strength on the damage t...
Hollow glass microspheres have been used extensively in the automotive and marine industries as an a...
In this study, the response of Glass Micro-balloon Epoxy Syntactic Foam to compressive loading was e...
Based on Continuum Damage Mechanics (CDM), a damage model for glass-bead-filled modified polyphenyle...
One inevitable effect of adding soft rubber particles to a rigid polymer is that its yield stress, σ...
In this paper, the size effect in unidirectional (UD) laminated glass-fibre reinforced plastic (GFRP...
The stress-strain response of a rubbery polymer network highly filled with micrometric glass beads ...
Purpose: The purpose of this paper is to study the behaviour of glass reinforced epoxy tubes subject...
International audienceA rubberlike matrix highly filled with spherical micrometric glass beads is su...
As a result of their superior mechanical, chemical, and electrical properties particulate-filled epo...
The effects of particle size of core-shell rubber on the fracture toughness of rubber-modified epoxi...
The size effect is a problem of scaling, which is central to every physical theory. In fluid mechani...
International audienceMotivated by the different uniaxial responses of two actual materials filled w...
AbstractParticle-reinforced polymers are widely used in load-carrying applications. The effect of pa...
The incorporation of inorganic particles into polymeric matrices is a widely used method for toughen...
The effect of particle volume fraction, strain rate and interfacial bonding strength on the damage t...
Hollow glass microspheres have been used extensively in the automotive and marine industries as an a...
In this study, the response of Glass Micro-balloon Epoxy Syntactic Foam to compressive loading was e...
Based on Continuum Damage Mechanics (CDM), a damage model for glass-bead-filled modified polyphenyle...
One inevitable effect of adding soft rubber particles to a rigid polymer is that its yield stress, σ...
In this paper, the size effect in unidirectional (UD) laminated glass-fibre reinforced plastic (GFRP...
The stress-strain response of a rubbery polymer network highly filled with micrometric glass beads ...
Purpose: The purpose of this paper is to study the behaviour of glass reinforced epoxy tubes subject...
International audienceA rubberlike matrix highly filled with spherical micrometric glass beads is su...
As a result of their superior mechanical, chemical, and electrical properties particulate-filled epo...
The effects of particle size of core-shell rubber on the fracture toughness of rubber-modified epoxi...
The size effect is a problem of scaling, which is central to every physical theory. In fluid mechani...
International audienceMotivated by the different uniaxial responses of two actual materials filled w...