| [1] | 成一, 陈守文. 电点火头发火过程的时间结构的研究 [J]. 爆破器材, 2001, 30(5): 22–24. CHENG Y, CHEN S W. Study on the time structure of electric ignition process in fuse head [J]. Explosive Materials, 2001, 30(5): 22–24. |
| [2] | 王鹏, 杜志明. 桥丝式电火工品热点火理论 [J]. 火工品, 2007(4): 26–30. WANG P, DU Z M. Thermal ignition theory of electric hot wire initiating devices [J]. Initiators & Pyrotechnics, 2007(4): 26–30. |
| [3] | 高文乐, 周奥博, 朱常胜, 等. 电流对灼热桥丝式电雷管点火头发火时间的影响 [J]. 爆破器材, 2017, 46(1): 34–37. GAO W L, ZHOU A B, ZHU C S, et al. Effect of current intensity on the ignition time of hot bridge-wire electric fusehead [J]. Explosive Materials, 2017, 46(1): 34–37. |
| [4] | 孙金梦, 卫延安, 武寿昌. 灼热桥丝式电点火药头的发火时间变化规律研究 [J]. 爆破器材, 2022, 51(6): 27–31. SUN J M, WEI Y A, WU S C, et al. Ignition time variation of hot bridge-wire electric fusehead [J]. Explosive Materials, 2022, 51(6): 27–31. |
| [5] | LEE A E, DRAKE C R, RICHARDSON J. A view on the functioning mechanism of EBW detonators―part 1: electrical characterisation [J]. Journal of Physics: Conference Series, 2014, 500(19): 192008. doi: 10.1088/1742-6596/500/19/192008 |
| [6] | LEE A E, DRAKE C R, RICHARDSON J. A view on the functioning mechanism of EBW detonators―part 2: bridgewire output [J]. Journal of Physics: Conference Series, 2014, 500(5): 052024. doi: 10.1088/1742-6596/500/5/052024 |
| [7] | LEE A E, DRAKE C R, RICHARDSON J. A view on the functioning mechanism of EBW detonators―part 3: explosive initiation characterisation [J]. Journal of Physics: Conference Series, 2014, 500(18): 182023. doi: 10.1088/1742-6596/500/18/182023 |
| [8] | SMILOWITZ L, HENSON B F, REMELIUS D, et al. Experimental observations of exploding bridgewire detonator function [J]. Journal of Applied Physics, 2020, 128(21): 215901. doi: 10.1063/5.0021288 |
| [9] | VALANCIUS C J, GARASI C J, O’MALLEY P D. Power and energy of exploding wires [J]. AIP Conference Proceedings, 2017, 1793(1): 040040. |
| [10] | 李涛, 傅华, 谭多望, 等. 金属桥丝电爆炸及飞片驱动过程的计算 [J]. 爆炸与冲击, 2010, 30(1): 70–74. LI T, FU H, TAN D W, et al. Calculation of metal bridge foil electric explosion and flying blade driving process [J]. Explosion and Shock Waves, 2010, 30(1): 70–74. |
| [11] | 王窈, 孙秀娟, 郭菲, 等. Al/Ni 爆炸箔电爆特性及驱动飞片能力研究 [J]. 火工品, 2016(3): 5–8. WANG Y, SUN X J, GUO F, et al. Study on electrical characteristic and flyer driven ability of Al/Ni exploding foil [J]. Initiators & Pyrotechnics, 2016(3): 5–8. |
| [12] | ZENG Q X, et al. Mechanism and characteristics on the electric explosion of Al/Ni reactive multilayer foils [J]. Applied Physics Letters, 2019, 115(9): 93–102. |
| [13] | 赵丽君, 易涛, 朱宏娜, 等. 桥丝电爆炸过程中的电磁脉冲效应 [J]. 含能材料, 2019, 27(6): 481–486. ZHAO L J, YI T, ZHU H N, et al. Electromagnetic pulse effect during the bridge wire electric explosion [J]. Chinese Journal of Energetic Materials, 2019, 27(6): 481–486. |
| [14] | 王伯羲, 冯增国, 杨荣杰. 火药燃烧理论 [M]. 北京: 北京理工大学出版社, 1997. WANG B X, FENG Z G, YANG R J. The theory of gunpowder combustion [M]. Beijing: Beijing Institute of Technology Press, 1997. |
| [15] | 李志鹏, 张攀军, 吕子剑, 等. 爆炸桥丝火工品的高压静电放电响应 [J]. 含能材料, 2015, 23(6): 578–582. LI Z P, ZHANG P J, LYU Z J, et al. Response to high voltage electrostatic discharge for exploding bridgewire detonators [J]. Chinese Journal of Energetic Materials, 2015, 23(6): 578–582. |