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Design and Test of a Micro-displacement Actuator Based on Giant Magnetostrictive Material
Liang Shao; Dehua Yang; Bintang Yang; Kunxin Chen
Source PublicationSmart Materials and Nanotechnology in Engineering
PagesVol.7493 3U-1-11
Conference Date2009-7-8
Conference PlaceWeihai, China
Funding OrganizationThe International Society for Optical Engineering
To meet the performance requirements of co-focusing and co-phasing of segmented mirror active optics (SMAO) in modern astronomical telescope, micro-displacement actuators with nanometer resolution and millimeter stroke are necessary. The design and test of a micro-displacement actuator based on giant magnetostrictive material is present in this paper. The actuator’s main components, such as giant magnetostrictive drive core, displacement pantograph mechanism and output guide mechanism, are discussed in detailed. The giant magnetostrictive drive mechanism generally may offer nanometer resolution and micron stroke. A displacement/stroke pantograph mechanism is designed with absolutely sealed flexible hydraulic structure (ASFHS) to enlarge the stroke. In addition, a secondary giant magnetostrictive drive mechanism is integrated to serve final resolution of final displacement output. In view of flexure exhibiting excellent mechanical properties free of friction, clearance and lubrication, a flexure guide mechanism with the capacity of excellent lateral load is designed to fulfill linear displacement output steadily. The sub-systems like the giant magnetostrictive drive core and displacement pantograph mechanism have been tested before integration of the whole actuator. The final test of the actuator is carried out with dual frequency laser interferometer at lab. Besides, to meet technical requirements of future extremely large telescope, further development issues mainly related to application practice of the actuator is discussed at the end.
KeywordMicro-displacement Actuator Giant Magnetostrictive Material Displacement/stroke Pantograph Mechanism Astronomical Telescope Nanometer Resolution.
Subject Area天文技术与方法
Document Type会议论文
Recommended Citation
GB/T 7714
Liang Shao,Dehua Yang,Bintang Yang,et al. Design and Test of a Micro-displacement Actuator Based on Giant Magnetostrictive Material[C]:SPIE,2009:Vol.7493 3U-1-11.
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