Fundamentals of Thermal Stimulated Current and Relaxation Map Analysis |
From inside the book
Results 1-3 of 84
Page 79
... Debye process submitted to a thermal - windowing treatment , as described in Figure 2-3 . Some examples of simulations derived from this equation will be presented later on . Single Debye Relaxation In summary , for a single elementary ...
... Debye process submitted to a thermal - windowing treatment , as described in Figure 2-3 . Some examples of simulations derived from this equation will be presented later on . Single Debye Relaxation In summary , for a single elementary ...
Page 92
... Debye relaxation . Lacabanne's idea is to concentrate on the lower tail of the relaxation peak and to integrate the peak , to obtain P ( T ) , by applying the rule already mentioned that a characteristic of a Debye relaxation is such ...
... Debye relaxation . Lacabanne's idea is to concentrate on the lower tail of the relaxation peak and to integrate the peak , to obtain P ( T ) , by applying the rule already mentioned that a characteristic of a Debye relaxation is such ...
Page 101
... Debye peak does not represent the whole experimental relaxation curve . This conclusion could be reached qualitatively by looking at the symmetry of the peak in Figure 2-20 : Debye peaks are asymmetrical ( Sm / So 62 % ) , whereas the ...
... Debye peak does not represent the whole experimental relaxation curve . This conclusion could be reached qualitatively by looking at the symmetry of the peak in Figure 2-20 : Debye peaks are asymmetrical ( Sm / So 62 % ) , whereas the ...
Contents
A COMPARISON OF TSCRMA DSC DEA AND DMA FOR | 14 |
CHAPTER 5 | 24 |
General Considerations | 31 |
Copyright | |
39 other sections not shown
Common terms and phrases
activation energy amorphous phase annealing behavior blend block copolymers Chapter characterization compensation lines compensation phenomenon compensation point compensation search conformers constant cooling corresponding Current Amps curve curvefitting Debye peak Debye relaxation deconvolution decrease depolarization depolarization current dielectric dipoles DOD number EE plot EKNET elementary Energetic Kinetic Enthalpy Enthalpy of activation Entropy cal/C Entropy of activation equation equilibrium Free Energy frequency glass transition temperature HDPE homopolymer increase kcal kcal/m kcal/mol LDPE linear Log Tau material negative compensation obtained orientation parameters peak maximum PEBA plane PMMA polarization temperature polyamide Polycarbonate polymer polypropylene Polystyrene positive compensation present Relaxation Map Analysis relaxation modes RMA spectroscopy sample shift simulated slope and intercept specimen spherulites structure sub-AS sub-EE Table technique Temperature Figure temperature of polarization thermal stimulated thermal-windowing thermokinetic Tm,D TSC/RMA unannealed undrawn variation VECTRA voltage field Z-line