爆燃強度 的英文怎麼說
中文拼音 [bàoránqiángdù]
爆燃強度
英文
detonation intensity-
In this paper, firstly the macro parameter of the series connection app was comprehensively analyzed, among which the trajectory location of the bullet emission and the terminal velocity of the bullet were mainly analyzed, and the feasibility of the series connection app to cope with explosive reactive armor was demonstrated. and then the macro design about the head of the series connection app was made, among which a particular analyse about the bullet " s launching process was made, from which we concluded the relation between the thickness of the airproof loop and the velocity of the bullet detached from the carrier and the relation between the length of the bullet and the velocity of the bullet detached from the carrier and the relation between the length of the bullet and the burning rate of the powder and the relation between the length of the bullet and the maximum pressure of the emission hole and the relation between the length of the bullet and the emitting time of the bullet, and the reasonable str ucture of the head of the carrier and bullet were designed, then the intensity of the head of the carrier was checked out using of the software of ansys
本文首先對子母式穿甲彈總體參量作了全面的計算分析,其中主要分析了子彈射出的彈道位置和必要的子彈著靶速度,論證了子母式穿甲彈對付爆炸式反應裝甲的可行性,然後對子母式穿甲彈彈頭部進行了總體設計,其中主要對子彈的發射過程進行了詳細的分析,得出了母彈彈頭部發射孔內閉鎖環厚度與子彈飛離母彈速度的關系、子彈長度與子彈飛離母彈速度的關系、子彈長度與火藥燃燒率的關系、子彈長度與母彈彈頭部發射孔內最大壓力的關系以及子彈的長度與子彈發射所需時間的關系,設計出了合理的母彈彈頭部結構和子彈的結構,並利用ansys有限元分析軟體對母彈彈頭部的強度進行了校核。Abstract : the article utilized theory of gas dynamics to research and analyze gas explosion model in boiler s chamber to investigate calculation means of explosion intensity in it, to supply technique specification for the design and manufacture of gas boiler
文摘:應用氣體動力學理論,研究分析可燃氣體在鍋爐爐膛內爆燃模型,探索其爆燃強度的計算方法,為燃氣鍋爐本體設計和製造提供有關技術資料。But most of the researches focus on the reaction of single oxide and al to form wild phase al2o3. these researches show that only cuo / al reaction system can produce al2o3 particles steadily. however, the reaction is very drastic and it belongs to blast reaction
但大部分的研究集中在單一氧化物與al的置換反應生成增強顆粒al _ 2o _ 3的方法上,研究表明,只有cuo al反應體系在al熔點以上不高的溫度范圍能穩定生成顆粒,但同時cuo al反應過于劇烈,屬于燃爆反應,不易控制。
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