Modeling and ignition performance study of Al/Ni multilayer energy-containing microdevices

Author:

Yan Shaoan1ORCID,Zang Junyi1,Zhu Yingfang1,Tang Tao1,Chen Xin1,Li Xingyu1,Chen Yinyu1,Zheng Xuejun1ORCID,Tang Minghua2ORCID

Affiliation:

1. School of Mechanical Engineering and Mechanics, Xiangtan University 1 , Xiangtan, Hunan 411105, China

2. School of Materials Science and Engineering, Xiangtan University 2 , Xiangtan, Hunan, 411105, China

Abstract

In this paper, we designed double V-shaped Al/Ni multilayer energy-containing microdevices with different V-angles, and we performed finite element modeling and simulation of the heat transfer process of the designed energy-containing microdevice. Temperature-dependent resistivity was introduced to effectively simulate the phase change during ignition. We simulated the temperature and current density distribution in the central region of the Al/Ni multilayer energy-containing microdevice and predicted the ignition voltage threshold for the specific device structure. Al/Ni multilayer energy-containing microdevices with different V-angles were prepared by electron beam evaporation technology, and ignition experiments on the prepared devices under the excitation of 47 μF capacitance were conducted. The experimental results show that the critical voltage of ignition increases with the increase in the V-angle, which verifies the correctness of the proposed finite element model.

Funder

Provincial Natural Science Foundation of Hunan

National Natural Science Foundation of China

Foundation of Innovation Center of Radiation Application

Publisher

AIP Publishing

Subject

General Physics and Astronomy

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