Temperature dependence of elastocaloric effect in natural rubber

Abstract

The temperature dependence of the elastocaloric (eC) effect in natural rubber (NR) is studied adiabatically and isothermally. A broad temperature span for eC effect from 0 oC to 49 oC is observed. The maximum adiabatic temperature change (T) is 12 K at strain of 6 and occurs at 10 oC. These behaviors can be predicted by the temperature dependence of strain-induced crystallization (SIC) and temperature-induced crystallization (TIC). In isothermal condition, the deduced T from Clausius-Clapeyron factor can agree with the direct measurement at different temperatures. The eC performance of NR is compared with shape memory alloys (SMAs). The potential of NR for a near room temperature cooing application is primarily proved. This will open the SIC research of NR towards eC cooling direction.