Add to ORKGA model for the dependence of the electrical conductance, G, with the strain induced by external mechanical stress in conducting particles-polymer composites is presented. The model assumes that the percolation probability between neighboring particles must depart from a scale-invariant behavior but saturate at moderated-high strains, reaching percolation path's saturation, with sigmoid dependence. This dependence is obtained by proposing a dynamic picture where contacts or bonds between neighboring particles are created but also destructed when a stress is applied and relatively moderated or high strains, ε, are produced in the composite. The electrical conductance of prepared graphite-polydimethylsiloxane composites were measured as funct...
We studied the stress-dependent piezoresistive behavior of tunneling-percolation systems. Starting f...
The variation of electrical resistivity of an insulator-conductor composite, namely, wax-graphite co...
Liquid metal embedded elastomers (LMEE) are soft, stretchable materials that become conductive upon ...
Conductive elastic materials are formed by distributing conductive particles within an elastic polym...
The piezoresistivity in a heterogeneous material formed by conducting nickel particles uniformly dis...
Composites of a silicone matrix charged with graphite powder of micrometric size in volume fractions...
A novel model for a network of polymer chains is proposed considering the distribution of polymer ch...
Conductive polymer composites are manufactured by randomly dispersing conductive particles along an ...
If the electrical resistance of a material depends upon external straining, the material exhibits ‘p...
In this study, a three-dimensional continuum percolation model was developed based on a Monte Carlo ...
We studied the stress-dependent piezoresistive behavior of tunneling-percolation systems. Starting f...
In article influence of a tension on the electric resistance of polymeric materials is studied. Anal...
Electro-conductive carbon black filled polyisoprene rubber shows large reflexive piezoresistive effe...
The electrical conductivity of extrinsically conducting polymer composite systems passes through a t...
International audienceThis work is dedicated to analyzing the variation of conductivity of polymer c...
We studied the stress-dependent piezoresistive behavior of tunneling-percolation systems. Starting f...
The variation of electrical resistivity of an insulator-conductor composite, namely, wax-graphite co...
Liquid metal embedded elastomers (LMEE) are soft, stretchable materials that become conductive upon ...
Conductive elastic materials are formed by distributing conductive particles within an elastic polym...
The piezoresistivity in a heterogeneous material formed by conducting nickel particles uniformly dis...
Composites of a silicone matrix charged with graphite powder of micrometric size in volume fractions...
A novel model for a network of polymer chains is proposed considering the distribution of polymer ch...
Conductive polymer composites are manufactured by randomly dispersing conductive particles along an ...
If the electrical resistance of a material depends upon external straining, the material exhibits ‘p...
In this study, a three-dimensional continuum percolation model was developed based on a Monte Carlo ...
We studied the stress-dependent piezoresistive behavior of tunneling-percolation systems. Starting f...
In article influence of a tension on the electric resistance of polymeric materials is studied. Anal...
Electro-conductive carbon black filled polyisoprene rubber shows large reflexive piezoresistive effe...
The electrical conductivity of extrinsically conducting polymer composite systems passes through a t...
International audienceThis work is dedicated to analyzing the variation of conductivity of polymer c...
We studied the stress-dependent piezoresistive behavior of tunneling-percolation systems. Starting f...
The variation of electrical resistivity of an insulator-conductor composite, namely, wax-graphite co...
Liquid metal embedded elastomers (LMEE) are soft, stretchable materials that become conductive upon ...