Structuring and Conductivity of Polymer Composites |
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Page 194
... voltage dependence of carbon black - filled rubbers : I = cV " , ( 4.1 ) where c and n are constants . If n = 1 , Eq . 4.1 looks like the Ohm law . Most often current grows faster than voltage , so n > 1. The n value depends on ...
... voltage dependence of carbon black - filled rubbers : I = cV " , ( 4.1 ) where c and n are constants . If n = 1 , Eq . 4.1 looks like the Ohm law . Most often current grows faster than voltage , so n > 1. The n value depends on ...
Page 200
... voltage near electrodes is very low if compared with voltage applied , and resistance is approximately equal to the volumeric resistance . At the same time , voltage applied to short samples is practically equal to the voltage jump near ...
... voltage near electrodes is very low if compared with voltage applied , and resistance is approximately equal to the volumeric resistance . At the same time , voltage applied to short samples is practically equal to the voltage jump near ...
Page 203
... voltages resistance of the interlayer weakly depends on voltage . Smooth part on curves corresponds to the ohmic contact R. The limit , up to which this dependences is kept constant , is determined by the value characteristic for ...
... voltages resistance of the interlayer weakly depends on voltage . Smooth part on curves corresponds to the ohmic contact R. The limit , up to which this dependences is kept constant , is determined by the value characteristic for ...
Contents
114 | 2 |
vulcanization of organosilicon ECPCs | 36 |
conductivity of filled organosilicon rubbers | 43 |
Copyright | |
8 other sections not shown
Common terms and phrases
60 mass additive vulcanization application based on SCTV carbon black concentration carbon black particles carbon fibers cathode characterized coefficient components composite materials composites based conductivity of ECPCs cross-linking curves decrease deformation density dielectric permeability diffusion displayed ECPCS based effect electric resistance electrically conducting filler electrically conducting properties electrically conducting rubber electrolysis electron elongation fibers filler concentration filler particle distribution filler particles filling degree formation free radicals graphite growth homogeneity increase induces 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 polymer composites polymer matrix polymer-filler polymerization possess pressure processes properties of ECPCs pyrolized pyrolysis radiation rubber mixture samples SCTN SCTV elastomer SCTV-based shunt siloxane structure surface temperature dependence tensoresistors tensosensitivity values viscosity voltage volumeric vulcanizates vulcanization network vulcanization technique