爆轟能 的英文怎麼說

中文拼音 [bàohōngnéng]
爆轟能 英文
detonation energy
  • : 動詞1. (猛然破裂或迸出) explode; burst 2. (放在滾油里快炒) quick-fry
  • : Ⅰ象聲詞(指雷、炮擊等發出的巨大聲音) bang; boom Ⅱ動詞1 (雷鳴; 轟擊; 爆炸) rumble; bombard; exp...
  • : 能名詞(姓氏) a surname
  1. Deflagration to detonation transition behavior of explosive job

    炸藥燃燒轉的影響
  2. Study of deflagration - to - detonation transition of combustible gas

    推進劑燃燒轉的實驗和數值研究
  3. Deflagration - to - detonation transition in porous propel lants and cast propellants

    多孔和鑄裝高推進劑的燃燒轉
  4. Numerical simulation of deflagration - to - detonation transition in high energy propellant

    固體推進劑燃燒轉的數值模擬
  5. Study on detonation performance of industrial explosives

    工業炸藥的研究
  6. Shock sensitivity is an important index that can judge the difficult or easy degree of detonation and detonating performance of explosive. small scale gap test ( ssgt ) is one of the most general methods that study shock sensitivity

    沖擊波感度是衡量炸藥的難易程度和起的重要指標,而小隔板試驗( ssgt )是研究沖擊波感度最普遍的方法。
  7. In the shock tube, the detonation parameters, such as critical initiation energy, detonation velocity, detonation pressure, detonation limitation and etc., have been measured and the relation is too obtained between detonation parameters and equivalence ratio. chemical kinetics process of hydrocarbon fuel has been analyzed according to the chain reaction mechanism

    在立式激波管中測試了工業燃料c _ 5h _ ( 8 . 68 )的臨界起速、壓、極限,得到了參數與當量比之間的關系;從反應是一個鏈反應機理出發,分析碳氫燃料的反應動力學過程。
  8. In view of the rich underground fissure water and poor blasting effect at cangshan gold mine, water is used as the transfer medium of explosion energy so as to improve the blasting effect and quality and to reduce the vibration caused by blasting

    針對倉上金礦地下裂隙水豐富,破效果差的特徵,利用水作傳遞爆轟能的介質,改善了破效果,提高了破質量,降低了破震動。
  9. It is shown how control of the melting of the coating on aluminum particles in a mining explosive helps control the split of the total energy released into shock energy, that supports the detonating shock wave and heave energy, that heaves the overburden off the ore body

    並在此基礎上,對含鋁礦用硝胺乳化炸藥中的鋁粉反應過程進行了理論分析,認為鋁粉的吸熱和放熱反應過程對總量分配為沖擊波(用於支持波以及破壞巖層)以及拋擲(用於拋擲)的比例影響明顯。
  10. It shows that the network, affected by stream of water, superposes each other leading to the jet of detonator energy cavity and metal fragments which can break the nonel - tube without transmitting detonation yet, so as to make the detonation transmission in some local network break off and bring about misfire

    結果表明,受紊亂水流影響,導管網路相互疊加,比較凌亂,致使傳雷管產生的聚射流和碎片容易將尚未傳的導管切斷或打破,而使局部網路傳遞中斷,造成拒現象的發生。
  11. Abstract : for the diffculties met in the long - distance transportation of primary explosive and special quantity detonators can be nowhere purchased, the common preparation primary explosive and special quantity detonator are introduced, and the testing results on the detonation susceptibility of secondary explosive in the present condition of laboratory are discussed

    文摘:由於起藥不長途運輸以及特殊藥量的雷管無處購買,就實驗室條件下,對常用的起藥及特殊藥量雷管的自製方法及測定猛炸藥感度的結果進行了討論。
  12. It is very difficult to research the burning characteristic of high energy propellant in the ddt pipe applying the ionization probe. but the satisfactory results can be easily got using photoelectricity triode

    用探針法研究ddt管中高推進劑的燃燒波和波的傳播特性,因各種因素的影響難以得到滿意的結果,用光電三極體代替電離探針可得到相對理想的結果。
  13. Characteristics of high explosives obtained from cylinder test data

    圓筒實驗數據研究高炸藥的特性
  14. Paragon : quantum resource generator, creates nearly limitless energy and mass, and toggles resource generation to match production demands - but if destroyed, it goes up with an explosion as powerful as the detonation of a strategic weapon

    典範:量子資源發生器,產生幾乎是無限的量和質量,和鈕子資源生成,以配合生產需求-但是,如果遭到破壞,這是不言而喻的了一個炸威力的一種戰略武器。
  15. It has been found that 1, 1 - diamino - 2, 2 - nitroethylene is the most stabilized isomer and has the best exploding properties in three of isomers judged by its the smallest molecular volume

    發現1 , 1 -二氨基2 , 2 -二硝基乙烯為最穩定的異構體;其分子體積最小,預示在其同分異構體中最好。 3
  16. Influence of particle size of rdx on the detonation properties

    炸藥粒度對其的影響
  17. Experimental investigation on the effect of change in explosive detonation in rock fragmentation

    炸藥變化對破巖效果影響的實驗研究
  18. 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、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;利用灌注炸藥的高速及發射藥的低速組成一定形狀可用來形成特殊的波,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。
  19. So it has especial characteristics in studying nuclear weapon - related hydrodynamic problems, which ca n ' t be replaced by others research methods

    因此電磁內技術在高量密度研究領域具有獨特的優勢,是炸藥和激光聚變不代替的。
  20. Once the counterattacking bomb and the invading missile reach their optimum distance, the counterattacking bomb ' s warhead will be detonated. the explosion produces large amounts of fragmentations in high speed, and destroys the invading missile. in this way, the invading missile is hold up and the tank is protected

    當反擊彈與目標之間的距離處于最佳時,引反擊彈戰斗部,預制破片和超壓產物以高速動毀傷來犯目標,達到攔截導彈和保護自己的目的。
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