Abstract
AbstractA combined analytical and molecular dynamics model for the electrocaloric effect in ferroelectric poly(vinylidene difluoride‐co‐trifluoroethylene) copolymer (poly(VDF‐co‐TrFE)) is developed. The model calculates the polymer polarization, , and temperature change under adiabatic electric field variation, , as functions of temperature. An analytical component of the model is based on the Landau phenomenological theory adapted for modeling of the first order phase transitions in a polymer crystal from a ferroelectric β phase to a paraelectric conformationally disordered (condis) phase. Parameters of the free energy functional are calibrated through molecular dynamics simulations of poly(VDF‐co‐TrFE) perfect crystal. Random orientation and the scatter of the phase transition temperature for various crystallites in a real amorphous‐crystalline polymer are incorporated into the model. Comparison of the model prediction with experimental data shows good agreement for while the model overestimates the value of by approximately 2.5 times. We attribute this discrepancy to the presence of structural defects in real polymer crystallites, which reduces the entropy change under the phase transition compared to the perfect crystal simulated in our molecular dynamics approach. The theoretical limit of calculated by the model indicates that can be increased up to 3 times compared to the currently observed experimental value of .
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