International audienceAn applied stress field sigma(3) can reversibly change the temperature of an elastocaloric material under adiabatic conditions, and the temperature change Delta T-sigma 3 is usually maximized near phase transitions. Using a thermodynamic approach, we demonstrate that an elastocaloric strength alpha = vertical bar Delta T-sigma 3 vertical bar/vertical bar sigma(3)vertical bar of 0.016 K/MPa can be achieved benefiting from the full first-order phase transition in BaTiO3 single crystals, which is comparable with typical elastocaloric materials reported in the literature. The elastocaloric temperature change is found to be giant (3.2 K) under a stress of 200 MPa with a temperature span of over 50 K, which can be significan...