Electroactive actuator composites using volume change induced by insulator-to-metal transition in VO2

This report describes the actuator functionality of a ceramic composite that uses the volume change caused by the insulator-metal (I-M) transition of VO2. When an electrical field was applied at 295 K, 50 vol. %-VO2/Al2O3 ceramic composite underwent the I-M transition because the VO2 powder dispersed in the composite became metallic. Simultaneous measurement of I-V characteristics and linear strain demonstrated that this I-M transition was accompanied by a positive strain. This strain increased with increase in the limit current value, which limits excessive current flow after transition. The strain exceeded 1300 ppm at maximum. Its magnitude corresponded to the volume change obtained from thermal expansion measurements on the composite. This composite performs a volume-change-driven actuator function that is distinct from the strain-driven counterpart of piezoelectric materials.