Combined relaxation spectroscopy of polymers
Identifieur interne : 002857 ( Main/Exploration ); précédent : 002856; suivant : 002858Combined relaxation spectroscopy of polymers
Auteurs : Péter Hedvig [Hongrie]Source :
- Journal of Polymer Science: Macromolecular Reviews [ 0076-2083 ] ; 1980.
English descriptors
- Teeft :
- Activation energies, Activation energy, Amorphous part, Amorphous phase, Amorphous polymers, Anisotropy, Apparent activation energy, Appl, Autocorrelation, Autocorrelation function, Barrier theories, Barrier theory, Block scheme, Boyer, Calorimetry, Chem, Chemical composition, Complex permittivity, Compliance components, Computerized, Correlation function, Correlation time, Correlation times, Craze, Craze formation, Craze material, Crosslink density, Crosslinking, Crystalline phase, Crystalline polymers, Cure time, Current density, Defect, Defect sites, Degradation, Depolarization, Dielectric, Dielectric depolarization spectrum, Dielectric depolarization technique, Dielectric loss, Dielectric oscillator strength, Dielectric permittivity, Dielectric spectra, Dielectric spectrometer, Dielectric spectroscopy, Dielectric spectrum, Dielectric technique, Different pressures, Different rates, Different stages, Different subsystems, Different temperatures, Differential calorimetry, Diffusion process, Dipole moment, Dislocation, Distribution function, Dynamic light, Effective frequencies, Effective frequency, Electric field, Endothermic peak, Energy difference, Energy eigenvalues, Enthalpy, Enthalpy relaxation, Environmental effects, Exciton, Exciton theory, Expectation value, Exponential, External force field, External force fields, First stage, Fluctuation, Force field, Force fields, Fourier, Free radicals, Free volume, Free volume theory, Frequency range, Glassy state, Heat flux, Hedvig, Helfand, Illustrative example, Inert atmosphere, Infrared spectroscopy, Kinetics, Laplace, Laplace transformation, Larmor frequency, Load levels, Local field, Local motion, Local motions, Longitudinal, Lower temperatures, Macromol, Macroscopic, Macroscopic autocorrelation function, Magic angle rotation, Magnetic field, Magnetic resonance spectroscopy, Magnetization, Main chain, Main problem, Marcel dekker, Matrix, Mccrum, Mechanical case, Mechanical dipoles, Mechanical loading, Mechanical properties, Mechanical relaxation, Mechanical spectra, Mechanical spectroscopy, Mechanical spectrum, Methacrylate, Module, Modulus, Molecular motion, Molecular motions, Molecular structure, Multiple transitions, Nauk sssr, Neutron, Neutron spectroscopy, Nonequilibrium, Orientational, Oscillator, Oscillator strength, Other hand, Other subsystems, Oxidative degradation, Permittivity, Perturbation, Peterlin, Phys, Physical structure, Poisson ratio, Polym, Polymer, Polymer chain, Polymer chains, Polymeric, Polymeric glasses, Polymeric solids, Potential barrier, Prepr, Proc, Radiation chemistry, Rate constants, Reaction order, Reaction parameters, Reaction rate, Recent review, Relaxation, Relaxation behavior, Relaxation experiments, Relaxation processes, Relaxation spectra, Relaxation spectroscopy, Relaxation time, Relaxation times, Relaxation transitions, Response function, Rheology, Rusch, Same sample, Sample thickness, Scission, Screw dislocations, Secondary transitions, Semicrystalline, Semicrystalline polymers, Shear modulus, Shift factor, Shift rate, Side groups, Simple barrier theory, Slichter, Sorption, Specific heat, Spectrometer, Spectroscopy, Spectrum, Statistical theory, Step function, Step voltage, Strain field, Stress relaxation, Structural changes, Structural parameters, Structural transitions, Structural unit, Structural units, Struik, Subsystem, Such studies, Such systems, Takayanagi, Temperature change, Temperature dependence, Temperature difference, Temperature range, Temperature scan, Tetrahedron associates, Thermal conductivity, Thermal equilibrium, Thermal motion, Thermodynamical, Thermomechanical, Thermomechanical curves, Thermomechanical method, Time dependence, Time scale, Torsional, Total number, Transition temperature, Tunneling, Typical sequence, Unit cells, Various materials, Volume relaxation, Volume relaxation curves, Wide range.
Url:
DOI: 10.1002/pol.1980.230150108
Affiliations:
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Le document en format XML
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type="eISSN">1543-0480</idno><imprint><biblScope unit="vol">15</biblScope><biblScope unit="issue">1</biblScope><biblScope unit="page" from="375">375</biblScope><biblScope unit="page" to="469">469</biblScope><biblScope unit="page-count">95</biblScope><publisher>Wiley Subscription Services, Inc., A Wiley Company</publisher><pubPlace>New York</pubPlace><date type="published" when="1980">1980</date></imprint><idno type="ISSN">0076-2083</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0076-2083</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="Teeft" xml:lang="en"><term>Activation energies</term><term>Activation energy</term><term>Amorphous part</term><term>Amorphous phase</term><term>Amorphous polymers</term><term>Anisotropy</term><term>Apparent activation energy</term><term>Appl</term><term>Autocorrelation</term><term>Autocorrelation function</term><term>Barrier theories</term><term>Barrier theory</term><term>Block scheme</term><term>Boyer</term><term>Calorimetry</term><term>Chem</term><term>Chemical composition</term><term>Complex permittivity</term><term>Compliance components</term><term>Computerized</term><term>Correlation function</term><term>Correlation time</term><term>Correlation times</term><term>Craze</term><term>Craze formation</term><term>Craze material</term><term>Crosslink density</term><term>Crosslinking</term><term>Crystalline phase</term><term>Crystalline polymers</term><term>Cure time</term><term>Current density</term><term>Defect</term><term>Defect sites</term><term>Degradation</term><term>Depolarization</term><term>Dielectric</term><term>Dielectric depolarization spectrum</term><term>Dielectric depolarization technique</term><term>Dielectric loss</term><term>Dielectric oscillator strength</term><term>Dielectric permittivity</term><term>Dielectric spectra</term><term>Dielectric spectrometer</term><term>Dielectric spectroscopy</term><term>Dielectric spectrum</term><term>Dielectric technique</term><term>Different pressures</term><term>Different rates</term><term>Different stages</term><term>Different subsystems</term><term>Different temperatures</term><term>Differential calorimetry</term><term>Diffusion process</term><term>Dipole moment</term><term>Dislocation</term><term>Distribution function</term><term>Dynamic light</term><term>Effective frequencies</term><term>Effective frequency</term><term>Electric field</term><term>Endothermic peak</term><term>Energy difference</term><term>Energy eigenvalues</term><term>Enthalpy</term><term>Enthalpy relaxation</term><term>Environmental effects</term><term>Exciton</term><term>Exciton theory</term><term>Expectation value</term><term>Exponential</term><term>External force field</term><term>External force fields</term><term>First stage</term><term>Fluctuation</term><term>Force field</term><term>Force fields</term><term>Fourier</term><term>Free radicals</term><term>Free volume</term><term>Free volume theory</term><term>Frequency range</term><term>Glassy state</term><term>Heat flux</term><term>Hedvig</term><term>Helfand</term><term>Illustrative example</term><term>Inert atmosphere</term><term>Infrared spectroscopy</term><term>Kinetics</term><term>Laplace</term><term>Laplace transformation</term><term>Larmor frequency</term><term>Load levels</term><term>Local field</term><term>Local motion</term><term>Local motions</term><term>Longitudinal</term><term>Lower temperatures</term><term>Macromol</term><term>Macroscopic</term><term>Macroscopic autocorrelation function</term><term>Magic angle rotation</term><term>Magnetic field</term><term>Magnetic resonance spectroscopy</term><term>Magnetization</term><term>Main chain</term><term>Main problem</term><term>Marcel dekker</term><term>Matrix</term><term>Mccrum</term><term>Mechanical case</term><term>Mechanical dipoles</term><term>Mechanical loading</term><term>Mechanical properties</term><term>Mechanical relaxation</term><term>Mechanical spectra</term><term>Mechanical spectroscopy</term><term>Mechanical spectrum</term><term>Methacrylate</term><term>Module</term><term>Modulus</term><term>Molecular motion</term><term>Molecular motions</term><term>Molecular structure</term><term>Multiple transitions</term><term>Nauk sssr</term><term>Neutron</term><term>Neutron spectroscopy</term><term>Nonequilibrium</term><term>Orientational</term><term>Oscillator</term><term>Oscillator strength</term><term>Other hand</term><term>Other subsystems</term><term>Oxidative degradation</term><term>Permittivity</term><term>Perturbation</term><term>Peterlin</term><term>Phys</term><term>Physical structure</term><term>Poisson ratio</term><term>Polym</term><term>Polymer</term><term>Polymer chain</term><term>Polymer chains</term><term>Polymeric</term><term>Polymeric glasses</term><term>Polymeric solids</term><term>Potential barrier</term><term>Prepr</term><term>Proc</term><term>Radiation chemistry</term><term>Rate constants</term><term>Reaction order</term><term>Reaction parameters</term><term>Reaction rate</term><term>Recent review</term><term>Relaxation</term><term>Relaxation behavior</term><term>Relaxation experiments</term><term>Relaxation processes</term><term>Relaxation spectra</term><term>Relaxation spectroscopy</term><term>Relaxation time</term><term>Relaxation times</term><term>Relaxation transitions</term><term>Response function</term><term>Rheology</term><term>Rusch</term><term>Same sample</term><term>Sample thickness</term><term>Scission</term><term>Screw dislocations</term><term>Secondary transitions</term><term>Semicrystalline</term><term>Semicrystalline polymers</term><term>Shear modulus</term><term>Shift factor</term><term>Shift rate</term><term>Side groups</term><term>Simple barrier theory</term><term>Slichter</term><term>Sorption</term><term>Specific heat</term><term>Spectrometer</term><term>Spectroscopy</term><term>Spectrum</term><term>Statistical theory</term><term>Step function</term><term>Step voltage</term><term>Strain field</term><term>Stress relaxation</term><term>Structural changes</term><term>Structural parameters</term><term>Structural transitions</term><term>Structural unit</term><term>Structural units</term><term>Struik</term><term>Subsystem</term><term>Such studies</term><term>Such systems</term><term>Takayanagi</term><term>Temperature change</term><term>Temperature dependence</term><term>Temperature difference</term><term>Temperature range</term><term>Temperature scan</term><term>Tetrahedron associates</term><term>Thermal conductivity</term><term>Thermal equilibrium</term><term>Thermal motion</term><term>Thermodynamical</term><term>Thermomechanical</term><term>Thermomechanical curves</term><term>Thermomechanical method</term><term>Time dependence</term><term>Time scale</term><term>Torsional</term><term>Total number</term><term>Transition temperature</term><term>Tunneling</term><term>Typical sequence</term><term>Unit cells</term><term>Various materials</term><term>Volume relaxation</term><term>Volume relaxation curves</term><term>Wide range</term></keywords></textClass></profileDesc></teiHeader></TEI><affiliations><list><country><li>Hongrie</li></country><region><li>Hongrie centrale</li></region><settlement><li>Budapest</li></settlement></list><tree><country name="Hongrie"><region name="Hongrie centrale"><name sortKey="Hedvig, Peter" sort="Hedvig, Peter" uniqKey="Hedvig P" first="Péter" last="Hedvig">Péter Hedvig</name></region></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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