Dielectric spectroscopy of polymeric materials: fundamentals and applications
American Chemical Society, May 1, 1997 - Language Arts & Disciplines - 461 pages
Beginning with a complete discussion of the fundamentals of dielectric spectroscopy, this book examines in detail the methods used in data modeling and in such specialized techniques as high-frequency dielectric measurements and thermally stimulated currents. The book covers applications in a range of polymeric systems including solutions, blends, and liquid crystals.
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a-process a-relaxation acrylate activation energy alignment amorphous polymers Attard backbone behavior blends bonds Chem chemical chromophore complex component conformational copolymers correlation function crystalline cure Debye dielectric constant dielectric dispersion dielectric loss dielectric measurements dielectric properties dielectric relaxation dielectric spectroscopy dipolar correlation coefficient dipole moments distribution of relaxation dynamics effect electric field equation experimental factor Faraday glass transition increasing isotropic Kremer KWW function loss curves low frequency Macromolecules Macromolecules 1992 MakromoL Chem Mashimo materials MCPLC mesogen mode molecular weight molecules motion Ngai nonlinear optical observed obtained orientation parameters permittivity Phys plot polarization poly polymer chain polymeric PP-PEPO PTFE region relaxation function relaxation processes relaxation strength reorientation repeating unit result Riande rotational sample Schonhals SCPLCs segments semicrystalline side groups Solids solution solvent spacer spectroscopy Stockmayer structure temperature dependence theory tion Trans type-A vector versus viscosity Williams