Modeling energy storage and structural evolution during finite viscoplastic deformation of glassy polymers

Abstract: The enthalpic response of amorphous polymers depends strongly on their thermal and deformation history. Annealing just below the glass transition temperature (T_{g}) causes a large endothermic overshoot of the isobaric heat capacity at T_{g} as measured by differential scanning calorimetry, while plastic deformation (cold work) can erase this overshoot and create an exothermic undershoot. This indicates that a strong coupling exists between the polymer structure, thermal response, and mechanical deformation. I… Show more

“…and Xiao et al . this endothermic overshoot is related to the enthalpy relaxation of a deformed amorphous phase, which may be produced during the film processing due to the cooling from above to below T g , for the PLA present in the sample, and the deformation induced during the film stretching, by the rollers set …”

A new approach for flexible PBAT/PLA/CaCO₃ films into agriculture

“…and Xiao et al . this endothermic overshoot is related to the enthalpy relaxation of a deformed amorphous phase, which may be produced during the film processing due to the cooling from above to below T g , for the PLA present in the sample, and the deformation induced during the film stretching, by the rollers set …”

A new approach for flexible PBAT/PLA/CaCO₃ films into agriculture

Multiple relaxation mechanism-based thermo-mechanical constitutive model describing cyclic shape memory effect of shape memory polyurethane

Physically-based interpretation of abnormal stress relaxation response in glassy polymers