Creep of electrical resistance under uniaxial pressures for carbon black–silicone rubber composite

## Abstract Electrical conductive polymer composites are shown as prospective flexible pressure and stretch sensors for detecting the dangerous deformations and for sensing the pressure with minimal intrusion. To better understand the piezoresistive mechanism and improve the performance of this typ

Electrically conductive silicone rubber composites have been prepared through incorporation of conductive acetylene black and short carbon fibre (SCF). The percolation limit for the attainment of high conductivity is found to be relatively less for silicone rubber based composites compared to EPDM o

taken below 42°K using a specimen of pyrolytic graphite heat-treated at 3250°K. In conjunction with zero-field resistivity and magnetoresistance data it will be shown that the "usual" Lorenz number provides an adequate description of the magnetothermal behavior of graphite. At saturation, measuremen

The changes in the electrical resistance of flexible pressure sensitive material based on carbon black filled silicone rubber composite during compressive creep and recovery are researched. The relation between the instantaneous increment (decrement) of the pressure and the instantaneous increment o