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8 May 1995 Dynamics of a bistable snapping microactuator
Yao-Joe Yang, Chang-Jin Kim
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Proceedings Volume 2443, Smart Structures and Materials 1995: Smart Structures and Integrated Systems; (1995) https://doi.org/10.1117/12.208312
Event: Smart Structures and Materials '95, 1995, San Diego, CA, United States
Abstract
A study on the dynamics characteristics of a snap-action bistable microactuator that employs bimorph heating and residual-stress tension for switching behavior is presented. This study helps to characterize the device more completely and also provides valuable insights into the dynamic behavior of devices in micro-scale. The relation of bending moment and deflection during switching is numerically simulated by applying a simplified snap-through model. The model also takes air drag into consideration. The analysis shows that the switching time from one stable position to the other is less than 1 microsecond(s) , which is one thousand times shorter than the required cooling after each actuation. Hence, for the reported bistable microactuators that have overall lengths of about 200 micrometers and operate in air the maximum switching cycle time is expected to be in the kHz range that is based on thermal characteristics of the device.
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Yao-Joe Yang and Chang-Jin Kim "Dynamics of a bistable snapping microactuator", Proc. SPIE 2443, Smart Structures and Materials 1995: Smart Structures and Integrated Systems, (8 May 1995); https://doi.org/10.1117/12.208312
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KEYWORDS
Switching
Microactuators
Actuators
Shape analysis
Silicon
Chromium
Computer simulations
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