关键词：纤维；静电制动器
摘 要：A suspension comprised of angled fibers is proposed as a new means for achieving high strain,high stress, energy dense electrostatic actuators. Angled fiber arrays have low density and canbe placed between the electrodes of a parallel plate or comb-drive type actuator to create a selfcontained actuator sheet with low mass and volume. Angled fibers also have a Poisson’s ratio ofzero, allowing the use of robust, rigid electrodes, and they can be composed of stiff materials withlow viscoelastic properties. This is in contrast to the alternative technology of dielectric elastomers that depend on unreliable compliant electrodes and highly viscoelastic dielectrics. Performancelimits of an ideal nanometer-scale actuator, such as energy density, stress and strain, and efficiencyare considered through theoretical modeling. A micrometer scale prototype is fabricated using a novel fiber peeling technique that easily produces high-aspect-ratio (1.8 μm radius, 66 μm long),angled microfibers. The microfibers are used as a suspension for a parallel plate actuator. Theprototype actuator is characterized through static and dynamic tests, to reveal a maximum static strain of 3.4%at a static stress of 0.8 kPa (electric field of 13.9 V/μm), a fast unloaded step responseof < 2 ms, a Q of 12.9 and a power density of 12.8 W/kg when driving an inertial load in resonanceat 845 Hz.