The nonlinear behavior and failure of highly filled elastomers are significantly impacted by the volume fraction, the size and nature of fillers and the matrix stiffness. Original experimental data obtained on glass beads reinforced acrylates and on propellants allow illustrating and discussing the main effects generally observed. In order to better understand the effects of the microstructure and constitutive parameters on the behavior and failure of highly filled elastomers, a composite model, represented by a 2D periodic cell with randomly dispersed particles, with an account of a cohesive zone at the filler/matrix interface is used. Finite element simulations with finite strain provide insight on the stress-strain responses dependence...
Experimental studies have observed that particulate composite systems experience damage in three pri...
Material failure pervades the fields of materials science and engineering; it occurs at various scal...
International audienceSolid propellants are highly filled elastomers used as propulsion medium. Beca...
The nonlinear behavior and failure of highly filled elastomers are significantly impacted by the vol...
Solid propellants manufacturers commonly monitor the granulometries of the explosive fllers they int...
The stress-strain response of a rubbery polymer network highly filled with micrometric glass beads ...
A rubberlike matrix highly filled with spherical micrometric glass beads is submitted to uniaxial te...
Motivated by the different uniaxial responses of two actual materials filled with either sifted glas...
Solid propellants manufacturers commonly monitor the granulometries of the explosive fillers they in...
The mechanical behavior and damage of highly filled elastomers such as propellants is studied experi...
Atomic force microscopy has provided access to local moduli for propellants prepared with bonding ag...
Modelling the deformation and failure processes occurring in polymer bonded explosives (PBX) and oth...
Experimental studies have observed that particulate composite systems experience damage in three pri...
Material failure pervades the fields of materials science and engineering; it occurs at various scal...
International audienceSolid propellants are highly filled elastomers used as propulsion medium. Beca...
The nonlinear behavior and failure of highly filled elastomers are significantly impacted by the vol...
Solid propellants manufacturers commonly monitor the granulometries of the explosive fllers they int...
The stress-strain response of a rubbery polymer network highly filled with micrometric glass beads ...
A rubberlike matrix highly filled with spherical micrometric glass beads is submitted to uniaxial te...
Motivated by the different uniaxial responses of two actual materials filled with either sifted glas...
Solid propellants manufacturers commonly monitor the granulometries of the explosive fillers they in...
The mechanical behavior and damage of highly filled elastomers such as propellants is studied experi...
Atomic force microscopy has provided access to local moduli for propellants prepared with bonding ag...
Modelling the deformation and failure processes occurring in polymer bonded explosives (PBX) and oth...
Experimental studies have observed that particulate composite systems experience damage in three pri...
Material failure pervades the fields of materials science and engineering; it occurs at various scal...
International audienceSolid propellants are highly filled elastomers used as propulsion medium. Beca...