高速炸藥 的英文怎麼說
中文拼音 [gāosùzháyào]
高速炸藥
英文
detonating explosive- 高 : Ⅰ形容詞1 (從下向上距離大; 離地面遠) tall; high 2 (在一般標準或平均程度之上; 等級在上的) above...
- 速 : Ⅰ形容詞(迅速; 快) fast; rapid; quick; speedy Ⅱ名詞1 (速度) speed; velocity 2 (姓氏) a surna...
- 炸 : 炸動詞1. (在油里弄熟食物) fry in deep fat or oil 2. [方言] (焯) scald (as a way of cooking)
- 藥 : Ⅰ名詞1 (藥物) medicine; drug; remedy 2 (某些有化學作用的物質) certain chemicals Ⅱ動詞1 [書面...
- 高速 : (高速度) high speed; high velocity (hv); high rate; swift; fast; express; high-speed
- 炸藥 : explosive; explosive charges; dynamite; chloratit (克羅替炸藥)
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Experimental study on hypervelocity flyer driven by strong detonation at low vacuum conditions
低真空條件下炸藥強爆轟驅動超高速飛片實驗研究Research on the surface chemical modification of hard - sericite from fujian
高速撞擊流技術制備炸藥超細微粉的工藝研究The method for measuring the plane strain fracture toughness klc has been introduce to high polymer bonded explosives ( pbx ) by systematically studying technologies concerning the shape of specimen, the depth and its machining of crack, the loading rate, the measurement of critical fracture load, and the computation of klc, etc. the method has been used to test and study klc of three typical high polymer bonded explosives which are j2, jl, j3 respectively both at normal temperature and unmoral temperature
本文以高聚物粘結炸藥為研究對象,對測試高聚物粘結炸藥的平面應變斷裂韌度所涉及的樣品形狀、裂紋深度及裂紋制備、加載速度、臨界斷裂載荷p _ q的確定及平面應變斷裂韌度k _ ( ic )的計算等方面進行深入研究,建立了較為完善的炸藥平面應變斷裂韌度測試方法。Energetic materials for defense. performances. detonation velocity of high explosives
國防用高能材料.性能.高爆炸藥的爆炸速度Explosives for civil uses - high explosives - part 14 : determination of velocity of detonation
民用炸藥.高爆炸藥.第14部分:起爆速度的測定The research of this paper includes : ? high - speed photography and flash x - ray radiography are both used to capture the process of al shell ' s great deformation under low pressure. front illuminations are used to get the development of the fracture on the al shell. the relative energy release is analyzed from overpressure curves measured with some sensors
本文的研究內容主要包括: ?在受試炸藥經歷低應力大變形過程的susan試驗中,同時採用高速攝影、閃光x射線照相對彈體的撞靶過程進行了拍攝,得到了殼體膨脹變形過程圖像,並使用前照明技術觀察到了鋁殼表面產生的裂紋及其發展變化過程;從壓力傳感器測量的空氣沖擊波超壓曲線,獲得反應釋放總能。He is usually tnt or composition b, and takes a pd ( quick ), vt, delay or mechanical time fuze
高爆彈常填充tnt炸藥或b型混合炸藥,引信用快速、變時、延時或機械鐘引信。On the other hand through the numerical simulation and the theoretical analysis, the characteristics of electro - magnetic implosion and detonation driven implosion have been compared, and it is concluded that the ability of driving liners with the electro - magnetic implosion is much stronger than that of detonation driven implosion
利用計算結果和炸藥驅動內爆進行了比較,並結合理論分析得出了磁壓驅動套筒內爆達到高速的能力要強于炸藥驅動的結論。同時以上述理想導體模型對磁驅動等熵壓縮進行了流體力學數值模擬,從數值模擬的角度論證了磁驅動加載可以進行等熵壓縮實驗。The vertical delay stacked source obtains optimum matching with wall rock by controlling the charge mode and the excitation velocity, and maximum utilizes its energy. thus the seismic signal with the high frequency abundance and frequency bandwidth wide be obtained
垂直延遲迭加震源通過控制裝藥方式和控制炸藥速度來達到與圍巖的最佳匹配,最大限度的利用其激發的能量,激發出高頻成份豐富、頻帶寬、高頻能量高的地震信號。A low detonation velocity explosive with medium density ( lg / cm3 ) and proper power ( > 320ml ). which made from obsolete propellant by controlling the granularity and adding the inhibitor, is studied in this thesis ; the distribution of water in the powdery propellant is described, the effect of detonation velocity from different granularity of powdery propellant is studied and the simulated mathematical model on leakage of water in low detonation velocity explosive is also showed furthermore, the method involved in controlling the leak of water in explosive is provided. meanwhile the effect of inhibitor is experimented some of formulations and processes of low detonation velocity explosive are given in details
廢棄發射藥可直接用來製造凝膠炸藥,在發射藥顆粒的空隙中加入氧化劑和高分子的混合溶液,經過一段時間后氧化劑溶液變成凝膠狀態即可制得灌注炸藥,該灌注炸藥具有密度較高( 1 . 4g / cm ~ 3 ) 、抗水、爆速較高的特點;文中對灌注液所涉及的材料、工藝流程進行了研究;分析了灌注炸藥的力學性能;利用灌注炸藥的高爆速及發射藥的低爆速組成一定形狀可用來形成特殊的爆轟波,利用matlab程序設計出了平面波發生器並對影響因素進行了討論。The development trend in explosives is towards high density, high energy and low sensitivity. the replacement of nitro groups by furoxan groups can result in increase of density, detonation velocity of explosives. so these superior performance of benzofuroxan system compounds have aroused much attention
含能材料的發展趨勢是向著高密度、高能低感的方向發展。一個氧化呋咱基代替一個硝基,可以使含能材料密度提高,爆速增加,苯並氧化呋咱類化合物作為炸藥所具有的這些優良特性引起了人們的高度興趣。分享友人