兵器材料科学与工程
兵器材料科學與工程
병기재료과학여공정
Ordnance Material Science and Engineering
2013年
5期
29-32
,共4页
卢聘%李治源%吕庆敖%陈少辉
盧聘%李治源%呂慶敖%陳少輝
로빙%리치원%려경오%진소휘
断路开关%电爆炸导体%电感储能%脉冲电源
斷路開關%電爆炸導體%電感儲能%脈遲電源
단로개관%전폭작도체%전감저능%맥충전원
opening switch%electro-explosive conductor%inductive energy storage%pulsed power source
为探究电爆炸导体断路开关与电感储能系统的参数匹配问题,通过分析金属导体在电爆炸过程中的物态变化,结合电爆炸导体断路开关参数选取的理论经验公式,得到电爆炸导体断路开关的参数,并进行多次电爆炸试验。结果表明:在电感储能系统的初始电压为5 kV、电爆炸导体的直径为0.15 mm时,可得到大于140 MW的脉冲功率信号。
為探究電爆炸導體斷路開關與電感儲能繫統的參數匹配問題,通過分析金屬導體在電爆炸過程中的物態變化,結閤電爆炸導體斷路開關參數選取的理論經驗公式,得到電爆炸導體斷路開關的參數,併進行多次電爆炸試驗。結果錶明:在電感儲能繫統的初始電壓為5 kV、電爆炸導體的直徑為0.15 mm時,可得到大于140 MW的脈遲功率信號。
위탐구전폭작도체단로개관여전감저능계통적삼수필배문제,통과분석금속도체재전폭작과정중적물태변화,결합전폭작도체단로개관삼수선취적이론경험공식,득도전폭작도체단로개관적삼수,병진행다차전폭작시험。결과표명:재전감저능계통적초시전압위5 kV、전폭작도체적직경위0.15 mm시,가득도대우140 MW적맥충공솔신호。
In order to explorethe parameter match between the electro-explosive opening switch and inductive energy storage system,experiments of multiple groups of metallic conductor were conducted through the analysis of state changes in the process of electrical explosion of metal conductor,and combination with a theoretical model in selecting parameters of electro-explosive opening switch. The experimental results show that pulse power signals greater than 140 MW can be obtained when the initial voltage in the inductive energy storage system is 5 kV and the electric explosion conductor diameter is 0.15 mm.
