Title :
High-stress dielectric elastomer actuators with oil encapsulation
Author :
Gih-Keong Lau ; Thanh-Giang La ; Tan, Desmond Di-Teng
Author_Institution :
Sch. of Mech. & Aerosp. Eng., Nanyang Technol. Univ., Singapore, Singapore
Abstract :
Dielectric elastomer actuators (DEAs) can generate a large strain, but they are often short of strength and stress change for robotic applications. Their maximum actuation is limited by pre-mature electrical breakdown. This paper showed that dielectric oil encapsulation helps stop pre-mature breakdowns. Consequently, the oil encapsulated DEAs can sustain an ultra-high electrical breakdown field up to 835MV/m, which is 46% higher than 570MV/m in air without oil encapsulation. These oil-encapsulated DEA can produce muscle-like high stress change up to 1.05MPa, which is 75% higher than that produced by the DEA in air. Furthermore, oil encapsulation is also found effective to suppress electrical breakdown of tubular DEAs. These high-stress dielectric elastomer actuators show good potential to drive human-inspired robots.
Keywords :
dielectric materials; electric breakdown; electroactive polymer actuators; encapsulation; oils; dielectric oil encapsulation; high-stress dielectric elastomer actuator; human-inspired robot; muscle-like high stress; robotic application; tubular DEA; ultrahigh pre-mature electrical breakdown; Actuators; Dielectrics; Electric breakdown; Electrodes; Encapsulation; Strain; Stress; Artificial muscles; dielectric elastomer actuator; dielectric strength; electrical breakdown;
Conference_Titel :
Ubiquitous Robots and Ambient Intelligence (URAI), 2014 11th International Conference on
DOI :
10.1109/URAI.2014.7057530
