6533b871fe1ef96bd12d236f
RESEARCH PRODUCT
Application of time-temperature superposition to energy limit of linear viscoelastic behavior
Olesja StarkovaAndrey Aniskevichsubject
Polymers and PlasticsTension (physics)ChemistryThermodynamicsGeneral ChemistryStrain rateViscoelasticitySurfaces Coatings and FilmsStrain energyStress (mechanics)Superposition principleCreepTime–temperature superpositionMaterials Chemistrydescription
The energy approach for evaluation of the limits of linear viscoelastic (LVE) behavior is considered. The approach of Foux and Bruller based on the Reiner-Weissenberg dynamic theory of strength is developed for the temperature effect. Value of the stored energy at the limit of LVE is considered as the material characteristic independent on loading conditions and temperature. Time–temperature superposition principle is extended for the energy calculations. Curves of the stored energy calculated for different temperatures are shifted to each other in the logarithmic time axes similarly as creep compliance and relaxation modulus curves in creep and tension tests, respectively. Temperature is considered as a factor that accelerates transition form linear to non-LVE at the same stored energy threshold. This is proved by example of polyvinylchloride by comparing temperature dependences of the stress limits of LVE determined in two independent test series: tensile creep and constant strain rate tests. © 2009 Wiley Periodicals, Inc. J Appl Polym Sci, 2009
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2009-10-05 | Journal of Applied Polymer Science |