Research on Motion Characteristics for Latching Mechanism of MEMS Safety and Arming Device under Dual Environmental Forces

机译：双重环境力下MEMS安全装置锁定机构的运动特性研究

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To improve the matching design of safety and arming device parallel to the projectile axis with micro detonation sequence and plastic deformation under setback force, a MEMS safety and arming device with a latching mechanism placed perpendicularly to the projectile axis has been proposed. The proposed device is more beneficial to increase the force area of mechanism and to reduce the energy loss of micro detonation. The motion of the latching mechanism under dual environmental forces is theoretically modeled, and the criteria of reliable latching are given. Furthermore, dynamic finite element simulations are carried out to study the motion characteristics under dual environmental forces. The rerults in simulations indicate that the latching mechanism can achieve latching reliably under the rotary speed of 7000–18000 rpm with no plastic deformation.

机译：为了改善具有微爆炸序列的射弹轴的安全和臂装置的匹配设计，并在卷隙力下，已经提出了具有垂直于射弹轴的锁定机构的MEMS安全和臂装置。提出的装置更有益于增加机制的力面积，并降低微爆炸的能量损失。在双重环境力下的闩锁机构的运动是理论上的建模，并且给出了可靠锁定的标准。此外，进行了动态有限元模拟，以研究双重环境力下的运动特性。模拟中的轮廓表明，闩锁机构可以在7000-18000RPM的旋转速度下可靠地锁定，没有塑性变形。

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《IEEE International Conference on Nano/Micro Engineered and Molecular Systems》|2021年|699-703|共5页
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作者
Shenghong Lei; Yun Cao; Weirong Nie; Zhanwen Xi; Na Xu; Weixiang Qiu;
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关键词
Micromechanical devices; Projectiles; Force; Dynamics; Reliability theory; Safety; Finite element analysis;

机译：微机械设备;射弹;力;动态;可靠性理论;安全;有限元分析;

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3. Design of a large displacement thermal actuator with a cascaded V-beam amplification for MEMS safety-and-arming devices [J] . Li Xiuyuan, Zhao Yulong, Hu Tengjiang, Microsystem technologies . 2015,第11期

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6. The Research on Actuation Performance of MEMS Safety-and-Arming Device with Interlock Mechanism [O] . Tengjiang Hu, Wei Ren, Yulong Zhao, 2019

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8. Materials, Fabrication, and Assembly Technologies for Advanced MEMS- Based Safety and Arming Mechanisms for Projectile Munitions; Conference paper [R] . Robinson, C. H., Hoang, T. Q., Gelak, M. R., 2006

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Research on Motion Characteristics for Latching Mechanism of MEMS Safety and Arming Device under Dual Environmental Forces

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