Relationships of Polymeric Structure and PropertiesIvo Chudáček |
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Page 97
... transport network determined from the mole- cular superstructure of the polymer system by the introduction of the local hopping space . The fractal approached was used for the characterization of the transport network . We propose the ...
... transport network determined from the mole- cular superstructure of the polymer system by the introduction of the local hopping space . The fractal approached was used for the characterization of the transport network . We propose the ...
Page 104
... transport in the transport network shown in Fig . 10 we use Eq . ( 28 ) . This net- work has the same fractal structure as the Sierpinski gasket which was shown in Fig . 4. As a computer ex- periment we used few carriers that are in the ...
... transport in the transport network shown in Fig . 10 we use Eq . ( 28 ) . This net- work has the same fractal structure as the Sierpinski gasket which was shown in Fig . 4. As a computer ex- periment we used few carriers that are in the ...
Page 108
... transport tubes then the transport becomes ideal , practically only via the crystalline state , which is interrupted by some small amorphous regions . Acknowledgement The author is indebted to Prof. H. Biederman and Dr. M. Mar- van for ...
... transport tubes then the transport becomes ideal , practically only via the crystalline state , which is interrupted by some small amorphous regions . Acknowledgement The author is indebted to Prof. H. Biederman and Dr. M. Mar- van for ...
Contents
Preface | 1 |
2220 | 16 |
Dielectric relaxation of polyurethane systems Part II Shape parameters | 37 |
Copyright | |
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accepted April 21 acetonitrile activation energy amorphous Appl Phys April 21 behavior bentonite bonds calculated carbon chain charge carriers Charles University Chem Phys coefficient Colloid concentration constant copolymers crosslinked crystal crystalline curves Czechoslovakia decay density dielectric relaxation distribution effect Electrets electric electron ence enthalpy equation eutectoid experimental filler films fluorescence frequency function gel point glass transition Heinrich G hopping increase Key words kinetics layer Macromolecules measurements mechanical melting modulus molecular weight molecules monomer motion obtained oligomer parameters particles PCPS HT peak phase photogeneration Phys Rev PKMG PMCA polarization poly polyamide Polym Sci Polymer Physics polymeric polypropylene pressure properties PVAC region relaxation samples semidilute shown in Fig solid soliton spectra structure surface temperature dependence theory thermal thermodynamic thickness tion transport traps TSDC voltage volume wall water content