Research-on-a-MEMS-pyrotechnic-with-a-double-layer-barrier_2022_Defence-Tech

dc.contributor.author Ke-xin Wang
dc.contributor.author Teng-jiang Hu
dc.contributor.author Yu-long Zhao
dc.contributor.author Wei Ren
dc.date.accessioned 2022-11-05T04:24:42Z
dc.date.available 2022-11-05T04:24:42Z
dc.date.issued 2022-11-05
dc.description.abstract As an essential component of ammunition, pyrotechnics can control ignition with high reliability. However, due to limits of fabrication technology, traditional pyrotechnics are bulky. To achieve both functionality and miniaturization, MEMS pyrotechnics integrate initiator, safety-and-arming (S&A) de- vice and lead charge and keep all components within a small size. MEMS S&A devices, as the core component to ensure system safety, are difficult to achieve active and rapid response to control signals with high safety and reliability. In order to overcome the difficulty, we propose the design and charac- terization of a MEMS pyrotechnic with a double-layer barrier S&A device. The MEMS pyrotechnic is a high-integrated device with an overall size of 13.4 8.5 5.2 mm 3 . The initiator is a NiCr bridge foil covered with an Al/CuO energetic film, which can generate flame when ignited by an excitation voltage. To match the flame energy, lead styphnate is chosen in this study as the lead charge. The S&A device contains four semi-circular barriers, which are directly driven by V-shape electro-thermal actuators to gain active control of the pyrotechnics' ignition condition with rapid response. To improve the system's reliability, the four barriers are axisymmetrically placed in two layers, two barriers for each layer, to constitute a double-layer structure with a thickness of 100 m m. The ignition test results show that the S&A device can prevent the initiator from detonating the lead charge in safety condition. In arming condition, the lead charge will be detonated.
dc.identifier.uri https://digitallibrary.mes.ac.in/handle/1/3849
dc.title Research-on-a-MEMS-pyrotechnic-with-a-double-layer-barrier_2022_Defence-Tech
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