Structuring and Conductivity of Polymer Composites |
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Page 4
... volumeric part and diameter of filler particles , respectively , the sum ( 1.1 ) could be presended as follows : R = Pf / Vf + Ren / N . Here Pf is the specific volumeric resistance of a filler ; Re = p / 2r , where p is the specific ...
... volumeric part and diameter of filler particles , respectively , the sum ( 1.1 ) could be presended as follows : R = Pf / Vf + Ren / N . Here Pf is the specific volumeric resistance of a filler ; Re = p / 2r , where p is the specific ...
Page 169
... volumeric filler part , V1 . Thermal expansion of a composite leads to decrease of the volumeric filler part , which is bound to difference in coefficients of volume expansion of the polymer ẞ2 and filler ẞ1 / 250 - 252 / . Taking into ...
... volumeric filler part , V1 . Thermal expansion of a composite leads to decrease of the volumeric filler part , which is bound to difference in coefficients of volume expansion of the polymer ẞ2 and filler ẞ1 / 250 - 252 / . Taking into ...
Page 200
... volumeric charge in specific volume near electrode : ∞ U Q = √p ( x ) dx = = ε0 & r D Further on , it was found that longer sample displays [ possesses ] higher conductivity than shorter one . It is explained by the fact that in ...
... volumeric charge in specific volume near electrode : ∞ U Q = √p ( x ) dx = = ε0 & r D Further on , it was found that longer sample displays [ possesses ] higher conductivity than shorter one . It is explained by the fact that in ...
Common terms and phrases
60 mass additive vulcanization based on SCTV blobb carbon black particles carbon fibers characterized coefficient components composites based compression conductivity of ECPCs cross-linking curves decrease deformation density dielectric permeability displayed ECPCS based electric resistance electrically conducting properties electrically conducting rubbers electron elongation energy fibers filler concentration filler particles filling degree formation free radicals graphite growth heat treatment homogeneity increase induces intensity interaction interphase macromolecules magnetic field materials molecular obtained Ohm-m Ohmxm organosilicon P357E carbon black P803 carbon black paramagnetic parameters percolation theory percolation threshold peroxide vulcanization phase transition polyacrylonitrile polymer composites polymer matrix polymer-filler polymerization polyvinyl alcohol possess pressure processes properties of ECPCs pyrolized pyrolysis pyrolyzate radiation relaxation rubber mixture rubbers samples SCTN SCTV elastomer shown in Fig shunt significantly siloxane stretching structure surface temperature dependence tensosensitivity transition values voltage volumeric vulcanizates vulcanization network vulcanization technique