Affiliation:
1. Beijing Institute of Technology
2. Shanxi North Hui Feng Mechnical Electronic Co., Ltd.
Abstract
With development of MEMS pyrotechnics devices such as semiconductor bridge/metal bridges, the energy required to fuze ignition becomes smaller and smaller. The energy needed for traditional short-circuit is far greater than MEMS pyrotechnics devices explosive, and takes a large space of fuze, which does not accord with the smaller trend in fuse volume and ignition energy. This paper describes a MEMS short-circuit fuse based on electro-thermal theory, it has similar volume with MEMS pyrotechnics devices, and the energy required is less than the traditional shorts fuse. This short-circuit fuse has well safety features, short action time, small volume, low cost, and it is suitable to be used in fuse or other areas .
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Reference4 articles.
1. Pezous. Helene, Rossi. Carole, Sanchez. Marjorie, Mathieu. Fabrice, Dollat. Xavier, Charlot. Samuel, Conédéra. Véronique, Fabrication, assembly and tests of a MEMS-based safe, arm and fire device, Journal of Physics and Chemistry of Solids, v71, n2, pp.75-79, (2010).
2. Pezous. H. , Rossi. C. , Sanchez. M. , Mathieu. F. , Dollat. X. , Charlot. S. , Salvagnac. L. , Cone´de´ra. V. , Integration of a MEMS based safe arm and fire device, Sensors and Actuators: A Physical, v159, n2, pp.157-67, (2010).
3. Pennarun. Pierre, Rossi. Carole, Estève. Daniel, Colin. René-David, Single use, robust, MEMS based electro-thermal microswitches for redundancy and system reconfiguration, Sensors and Actuators, A: Physical, v 136, n1, pp.273-281, (2007).
4. Nie Weirong, Xi Zhanwen, Gong Ning, A MEMS igniter design for fuze safety & arming, 3rd International Conference on Mechanical Engineering and Mechanics, Beijing, China, OCT 21-23, 2009, pp.44-50.
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