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Last update: T_KMF (18.05.2006)
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Last update: doc. RNDr. Helena Valentová, Ph.D. (24.10.2019)
Successfully passed final oral exam. |
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Last update: doc. RNDr. Helena Valentová, Ph.D. (14.02.2023)
L.H.Sperling: Introduction to Physical Polymer Science. Wiley, 1992
N.G.McCrum, B.E.Read, G.Williams: Anelastic and Dielectric Effects in Polymeric Solids. Wiley, N.Y.1967
C.W. Macosco: Rheology: Principles, Measurements, and Applications, Wiley, 1993
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Last update: doc. RNDr. Helena Valentová, Ph.D. (24.10.2019)
Questions reflects the definition of syllabus. |
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Last update: T_KMF (18.05.2006)
Chemical composition, polymerization Stereoisomerism, conformations, configurations. Branching, crosslinking, copolymers, blends of polymers Mechanical behaviorPhenomenology Basic types of deformations, mechanical functions Boltzmann's superposition principle Viscoelastic models, mechanical spectra Temperature dependence of viscoelastic behaviorRole of time (frequency) Temperature-time superposition Rate processes with constant activation energy, Williams - Landel - Ferry equation (WLF) Molecular interpretation of WLF equation, free volume Molecular theory of viscoelastic behaviorThermodynamic of deformation Statistic of chain, rubber elasticity Dynamic of polymer chain, diffusion equation Dielectric polarizationPolarization in static field Polarization in time dependent field Types of polarizations in electric field Dielectric functionsMethods of measurements Measurement of complex permittivity Dependence of permittivity on time and frequency, distribution functions Physical models of dielectric behaviorHarmonic oscillator Diffusion transport Relaxations with free charge |