Abstract :
Various kinds of driving principles are proposed for micro actuators. Electrostatic, superconducting, piezoelectric, and shape-memory alloy actuators are studied, with emphasis on work done in Japan. Electrostatic actuators, a superconducting actuator, an actuator which simulates muscles, a microfluid system with piezoelectric actuators, and a cell fusion system based on a fluid integration circuit are described. Microactuators and the micro machines driven by them are expected to have wide varieties of applications in medical, bioengineering, optics, information machinery, and robotics fields. It is shown that before a practical microsystem is distributed, however, there are still difficulties such as micro sources, packaging, interfacing, reliability, and control of many autonomous systems
Keywords :
electric actuators; electric motors; reviews; robots; small electric machines; Japan; bioengineering; cell fusion system; driving principles; electrostatic actuators; fluid integration circuit; information machinery; interfacing; medicine; micro actuators; micro machines; micro sources; microfluid system; optics; packaging; piezoelectric actuators; reliability; robotics; shape-memory alloy actuators; superconducting actuator; Biomedical engineering; Biomedical optical imaging; Circuit simulation; Electrostatic actuators; Medical simulation; Microactuators; Muscles; Piezoelectric actuators; Shape memory alloys; Superconducting materials;
