高溫炸藥 的英文怎麼說

中文拼音 [gāowēnzháyào]
高溫炸藥 英文
ht powder
  • : 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...
  • : Ⅰ形容詞(不冷不熱) warm; lukewarm; hot; gentle; mild Ⅱ名詞1 (溫度) temperature 2 (瘟) acute ...
  • : 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)
  • : 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...
  • 高溫 : high temperature; elevated temperature; hyperthermia; megatemperature; inferno
  • 炸藥 : explosive; explosive charges; dynamite; chloratit (克羅替炸藥)
  1. Explosives for civil uses - high explosives - determination of safety and reliability at extreme temperatures

    民用爆物.烈性.超下測定安全性和可靠性
  2. This paper deals with the synthesis of ultrafine diamond ( ufd ) under high pressure and high temperatures generated by negative oxygen balance explosive detonation. the mechanism of synthesis ultrafine diamond by detonation standpoint is presented

    本文從理論和實驗兩個方面對利用負氧平衡爆轟產生的游離碳,在壓下相變為納米金剛石( ultrafinediamond簡稱ufd )作了初步探索。
  3. The results at normal temperature have shown that klc of high polymer bonded explosive are very low comparing to metals and some high polymer materials, thus the ability of pbxs to resist crack expanding is very poor, and once some cracks occur inner a structural part of pbxs, the structure will fail very soon and easily. so in the process of machining and production, cracks should be avoided carefully in pbxs parts. some important laws about klc of the three typical pbxs above changes with temperature have been obtained as follows : a

    對三種具有代表性的聚物粘結j1 、 j2和j3在常下的平面應變斷裂韌度進行了測試與研究,研究結果表明:相對于金屬及某些分子材料而言,聚物粘結的k _ ( ic )值很低,即聚物粘結的抗裂紋擴展能力是極差的,一旦構件中產生了裂紋,構件將極易破壞,因此,在聚物粘結構件的生產及加工過程中,應避免裂紋的產生。
  4. Energetic materials for defense. physico - chemical analysis and properties. determination of secondary explosive constituents by room temperature extraction

    國防用能材料.物理-化學分析和特性.室萃取法測定二次的成分
  5. Klc of j3 is higher than j2 and j1 at different temperatures, and this shows the stronger ability of j3 to resist crack expanding. two probations have been tried to explore the reasons concerning the results above, one of which is by analyzing the compositions of the three pbxs above and shows that the stronger ability of j3 to resist crack expanding is probably mainly due to the use of bonder b2, and another is by using scanning electronic microscope sem to observe the fracture face morphologies of the specimens at different temperatures. the quantitative observations strongly support the laws of klc of pbxs changes with temperature is revealed as follows : a

    測試了三種聚物粘結在不同度下的平面應變斷裂韌度k _ ( ic )值,得到了這三種的平面應變斷裂隨度的變化規律: a 、隨著度的增加,聚物粘結的平面應變斷裂韌度降低; b 、在45以後j2的平面應變斷裂韌度降低最快,在60時已很差,比j1還低,可以認為j2在下的抗裂紋擴展的能力比j1還差; c 、在不同度下, j3的平面應變斷裂韌度比j2和j1的均,表現出相對較強的抗裂紋擴展能力。
  6. Owing to inborn high temperature and high pressure gas after blasting and complexity of dynamic principal relationship and interact ional complexity between dynamite and rock and non - equal character and anisotropies of rock, the rock blasting mechanism research is quite complex

    該過程由於後生成的壓氣體產物和巖石動態本構關系的復雜性,與巖石之間相互作用的復雜性,以及巖石本身的非均質性和各向異性等使得巖石爆破機理的研究顯得十分復雜和困難。
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