Design and Simulation of an Electromagnetic Microactuator of Fuze Safety and Arming Device
This research is developed and aims at a new microactuator,which is used in the fuze Safety and arming device (S&A) with a planar structure fabricated by the MEMS technology.In order to satisfy its engineering application requirements of the fuze service,which are small volume with S&A barrier dimension of 25mm ×25mm ×2mm,large force,long stroke as well as non-contactable,and a complex fuze system environment,a disktype electromagnet microactuator prototype was designed and developed. Then,some main parameters of the designed electromagnetism microactuator had been estimated and optimized.Numerical simulation for three typical of microactuator had been also done,including their outputting force and generating heats,and their anti-interference performances in magnetic field.In order to test their movements,driving forces and performances of the developed microactuators,a suit of testing platform was designed and developed. The experimental results showed their overall performances of the developed microactuators under operating conditions could meet the engineering application requirements of a fuze system.
electromagnetic microactuator fuze safety and arming device.
Hongsheng Hu Jiong Wang Shan Bi
Department of Mechanical and Electrical,University of Jiaxing,Zhejiang Province,China School of Mech School of Mechanical Engineering,Nanjing University of Science and Technology,Jiangsu Province,China
国际会议
2009 9th International Conference on Electronic Measurement & Instruments(第九届电子测量与仪器国际会议 ICEMI2009)
北京
英文
72-77
2009-08-16(万方平台首次上网日期,不代表论文的发表时间)