Journal ArticleDOI
The effect of excess thermodynamic properties versus structure formation on the physical properties of glassy polymers
TLDR
In this article, the dynamic mechanical properties of glassy polymers, such as atactic polystyrene and poly(ethylene terephthalate), have been followed as a function of the excess enthalpy during isothermal annealing at selected temperatures below their respective glass transition temperatures.Abstract:
The dynamic mechanical properties of glassy polymers, such as atactic polystyrene and poly(ethylene terephthalate), have been followed as a function of the excess enthalpy during isothermal annealing at selected temperatures below their respective glass transition temperatures. For glassy polymers prepared from crystallizable as well as noncrystallizable polymers, the changes in modulus parallel the extent of enthalpy relaxation that occurs during the annealing period as a result of the nonequilibrium nature of the glassy state, i.e., the modulus increases with time and approaches a limiting value that increases with decreasing temperature. These results suggest that the observed changes in the dynamic mechanical moduli are associated with changes in the excess thermodynamic properties of the polymeric glasses, and not with structure formation other than the normal liquidlike packing of the chain segments. Thus the physical properties for corresponding equilibrium glassy states can be determined ...read more
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Book ChapterDOI
Thermotropic mesophases and mesophase transitions of linear, flexible macromolecules
TL;DR: The field of mesophases is subdivided into six different phases: liquid crystals, plastic crystals, condis crystals and the corresponding LC, PC, and CD glasses as discussed by the authors, which are the traditional phases with positional and orientational disorder, respectively.
Journal ArticleDOI
Effect of annealing on the secondary relaxations in glasses
TL;DR: In this article, it was suggested that the discrepancy between the relaxation rates determined from the loss spectrum at a constant temperature and from loss-temperature plots at constant frequency arises from a rapid increase in the amplitude of secondary relaxation with temperature.
Journal ArticleDOI
50th Anniversary Perspective: Challenges in the Dynamics and Kinetics of Glass-Forming Polymers
TL;DR: In this article, the phenomenology of the glass transition and the associated behavior in near liquid and glassy states are detailed, including the cooling rate dependence of glass transition, Kovacs' three signatures of structural recovery, and enthalpy overshoots.
Journal ArticleDOI
Experimental methods for tracking physical aging of thin glassy polymer films by gas permeation
Y. Huang,Donald R Paul +1 more
TL;DR: In this article, a thin wire frame was used to hold the thin polysulfone films while heating above Tg to relax molecular orientation and to erase the ambiguous thermal history resulting from solution casting.
Journal ArticleDOI
Physical Hardening of Asphalt Binders Relative to Their Glass Transition Temperatures
TL;DR: In this paper, the glass transition temperature of asphalt binders is measured by using three different techniques: dilatometry, differential scanning calorimetry, and rheological considerations (peak in the loss modulus versus temperature).
References
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Journal ArticleDOI
On the Temperature Dependence of Cooperative Relaxation Properties in Glass‐Forming Liquids
Gerold Adam,Julian H. Gibbs +1 more
TL;DR: In this paper, a molecularkinetic theory was proposed to explain the temperature dependence of relaxation behavior in glass-forming liquids in terms of the temperature variation of the size of the cooperatively rearranging region.
Book
Anelastic and Dielectric Effects in Polymeric Solids
TL;DR: Menard et al. as mentioned in this paper discuss the use of dynamic mechanical analysis (DMA) as a tool for thermal analysis, rheology, and materials science in the analytical laboratory.