Modeling of polymer'S thermomechanical behavior features in the temperature range including relaxation transition

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A version of the defining relations, allowing to take into account the effect of relaxation transitions (like glass) on the stress-strain state is used to describe the thermomechanical behavior of amorphous polymers. For tensor quantities, which at the phenomenological level, characterize the evolution of molecular interaction, kinetic equations are formulated in the Arrhenius form. The above numerical results demonstrate the capabilities of the system of determining and kinetic equations to describe the characteristics of thermo-mechanical behavior of amorphous polymers such as shape memory effect, forced high elasticity and inverse creep.

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Numerical simulation, relaxation transition, polymer, thermomechanics

Короткий адрес: https://sciup.org/146211346

IDR: 146211346

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