Conceptual design of self-sensing actuator based on giant magnetostrictive material

机译：基于超磁致伸缩材料的自感应执行器的概念设计

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This Paper presents the conceptual design of a self-sensing actuator (SSA) based on giant magnetostrictive material, which consists of variable-air-gap with a displacement amplification mechanism. A driving solenoid coil, surrounds the GMM rod, used to sense changes of magnetic induction in GMM. Modeling and simulation are used to validate the concept. Sensing relation is derived, uniformity and intensity of magnetic field in GMM is analyzed, magnetic circuit configuration is optimized. Then, the key structure factors influence intensity and uniformity of magnetic field in SSA is calculated. At last, Sensing application of actuator in actuation with magnetic field and compressive stress are analyzed, verify feasibility of conceptual design.

机译：本文介绍了一种基于巨型磁致伸缩材料的自感应致动器（SSA）的概念设计，该器件由可变气隙和位移放大机构组成。驱动电磁线圈围绕GMM杆，用于感应GMM中的磁感应变化。通过建模和仿真来验证该概念。推导了感应关系，分析了GMM中磁场的均匀性和强度，优化了磁路结构。然后，计算出影响SSA中磁场强度和均匀性的关键结构因素。最后，分析了执行器在磁场和压应力作用下的传感应用，验证了概念设计的可行性。

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《International Conference on Electrical Machines and Systems》|2014年|1671-1674|共4页
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Baiping Yan; Chengming Zhang; Lili Li; Fuzai Lv; Shuang Deng;
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giant magnetoresistance; magnetic actuators; magnetic circuits; magnetoresistive devices; solenoids; GMM rod; SSA; compressive stress; displacement amplification mechanism; driving solenoid coil; giant magnetostrictive material; magnetic circuit configuration; magnetic field; magnetic induction; self-sensing actuator; sensing relation; variable-air-gap; Actuators; Coils; Magnetic fields; Magnetic flux; Magnetostriction; Sensors;

机译：巨磁阻;磁致动器;磁路;磁阻器件;电磁阀; GMM杆; SSA;压应力;位移放大机构;驱动电磁线圈;巨大的磁致伸缩材料;磁路结构;磁场;磁感应;自感应致动器;感应关系;可变气隙;执行器;线圈;磁场;磁通量;磁致伸缩;传感器;

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Conceptual design of self-sensing actuator based on giant magnetostrictive material

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