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7 March 2019 A differential giant magnetostrictive mitro-displacement actuator
Jing Wang, Lei Wang, Yixin Li, Junzhong Li, Xaioyu Zhu
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Proceedings Volume 11053, Tenth International Symposium on Precision Engineering Measurements and Instrumentation; 110533Z (2019) https://doi.org/10.1117/12.2512315
Event: 10th International Symposium on Precision Engineering Measurements and Instrumentation (ISPEMI 2018), 2018, Kunming, China
Abstract
Actuators made of Giant Magnetostrictive Material (GMM) are used more and more widely in ultra-precision positioning, processing, measurement, and vibration isolation of equipment. While a single Giant Magnetostrictive Actuator (GMA) has low load capacity and non-ideal dynamic output characteristics, this paper presents a differential Giant Magnetostrictive Mitro-Displacement Actuator. The effect of the equivalent stiffness and quality of the load on the output characteristics of the actuator is analyzed by establishing the dynamic model of differential GMA. The experimental results show that compared to a single GMA micro-displacement actuator system, the differential GMA system has a positioning noise of ±3 nm, a resolution of 6 nm within a 18.5μm travel range. In the composite control system, a hysteresis-free sinusoidal displacement output with an amplitude of 3μm within 200 Hz is realized, and the maximum output error is 0.6μm, which effectively improves the dynamic performance of the actuator and improves the load capacity of the actuator.
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Jing Wang, Lei Wang, Yixin Li, Junzhong Li, and Xaioyu Zhu "A differential giant magnetostrictive mitro-displacement actuator", Proc. SPIE 11053, Tenth International Symposium on Precision Engineering Measurements and Instrumentation, 110533Z (7 March 2019); https://doi.org/10.1117/12.2512315
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KEYWORDS
Actuators
Control systems
Magnetism
Argon
Magnetostrictive materials
Autoregressive models
Lawrencium
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