Structuring and Conductivity of Polymer Composites |
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Page 219
... magnetic field effects on conductivity of polymer materials . Most of works were devoted to the first method . This is explained , apparently , by the reason that magnetic fields effectively influence on macromolecules in hardening ...
... magnetic field effects on conductivity of polymer materials . Most of works were devoted to the first method . This is explained , apparently , by the reason that magnetic fields effectively influence on macromolecules in hardening ...
Page 220
... magnetic field induces an increase of solidity and uniformity of the composites / 301 / and may increase glass transition temperature / 306 / . In this case , the border change of dielectric losses tangent occurs in 320 400 kA / m ...
... magnetic field induces an increase of solidity and uniformity of the composites / 301 / and may increase glass transition temperature / 306 / . In this case , the border change of dielectric losses tangent occurs in 320 400 kA / m ...
Page 227
J. N. Aneli, L. M. Khananasvili, Gennadiĭ Efremovich Zaikov. magnetic field on the type of motion of charge - current carriers . In the magnetic fields of B ≤ 2 Tl the form of the wave function of carriers does not practically change ...
J. N. Aneli, L. M. Khananasvili, Gennadiĭ Efremovich Zaikov. magnetic field on the type of motion of charge - current carriers . In the magnetic fields of B ≤ 2 Tl the form of the wave function of carriers does not practically change ...
Contents
114 | 2 |
vulcanization of organosilicon ECPCs | 36 |
conductivity of filled organosilicon rubbers | 43 |
Copyright | |
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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