摘要
The resistivity of conductive composites of NBR(Butadiene nitrile rubber) filled with conductive carbon black and two kinds of special organic fillers was measured from room temperature to 90℃. In such semiconduc-tive systems. A positive temperature coefficient (PTC) phenomenon is observed, whose intensity depends on the type concentration and other physical and chemical properties of carbon black. Two empirical formulae are obtained by a the-oretical fitting method from the experimental data. One is for the resistivity of NBR/CB composites at room temperature and the other is for the resistivity of NBR/ N550 composites with relatively high concentrations N550 carbon blick in the temperature range of 30 ~ 90℃. The stability of resistivity is also discussed.
The resistivity of conductive composites of NBR(Butadiene nitrile rubber) filled with conductive carbon black and two kinds of special organic fillers was measured from room temperature to 90℃. In such semiconduc-tive systems. A positive temperature coefficient (PTC) phenomenon is observed, whose intensity depends on the type concentration and other physical and chemical properties of carbon black. Two empirical formulae are obtained by a the-oretical fitting method from the experimental data. One is for the resistivity of NBR/CB composites at room temperature and the other is for the resistivity of NBR/ N550 composites with relatively high concentrations N550 carbon blick in the temperature range of 30 ~ 90℃. The stability of resistivity is also discussed.
