1) explosion mechanism
爆炸机理
1.
This paper mainly introduces the working principle, explosion mechanism, explosion examples of the lead-acid battery and some preventive measure for explosion.
主要介绍铅酸蓄电池工作原理、爆炸机理、爆炸事例,并针对性地提出了一些预防措施。
2.
The explosion mechanism of lithium-ion battery is anal.
本文综述了电池内部热量的来源和产生的原因,分析了电池在加热、过充、短路等状态下的爆炸机理,并提出了解决电池爆炸问题的具体措施。
2) gas explosion mechanism
瓦斯爆炸机理
3) explosive treatment
爆炸处理
1.
The whole process of the relief of the welding residual stress through an explosive treatment is simulated by using the nonlinear dynamic finite element method.
利用非线性动力有限元法对爆炸处理消除焊接接头残余应力的全过程进行了数值模拟。
4) explosion treatment
爆炸处理
1.
The successful application of explosion treatment on relieving welding residual stress in S belt of hot-blast stove in WIS(G)CO is introduced.
介绍了消除焊接残余应力爆炸处理技术在武钢高炉热风炉上的成功应用。
2.
Not only significant reduc- tion of the surface welding tensile residual stresses but also even distribution of stresses through the thickness are achieved due to the explosion treatment.
对三峡工程采用的60mm厚 NK-HITEN 610U2调质高强钢对接和角接的焊接试板进行爆炸处理。
3.
The results indicated that after the explosion treatment, the fatigue property of the plastic, clastic and elasto-plastic zones on the 16MnR steel weld, attected by the explosion shock wave, arc all improved but t.
结果表明,16MnR钢焊缝经爆炸处理后,冲击波的塑性作用区、弹性作用区以及弹(?)塑性转变区的疲劳性能均得到改善,但三区有不同的疲劳特性。
5) explosion principle
爆炸原理
6) Physical explosion
物理爆炸
1.
The main content and the progress about driving and loading by explosion,physical explosion and spontaneous combustion metal were clarified.
针对航天飞行器的典型防护结构,介绍和总结了国内外开展超高速碰撞研究的历史和成果,提出急需开展研究的重点和方向,阐述了爆炸驱动加载、物理爆炸、自燃性金属材料等研究的主要内容和进展,同时说明这些研究在这个领域的重要性。
2.
A physical explosion model from the Center for Chemical Process Safety of the American Institute of Chemical Engineers(AIChE/CCPS) is adopted to analyze the internal burst pressure of a compressor explosion accident.
采用美国化学工程师学会过程安全中心(AIChE/CCPS)的物理爆炸模型,对某一例压缩机爆炸事故进行了腔体内爆炸压力分析,并用爆炸碎片碰撞人体受到伤害的标准进行了比对分析。
3.
The most common physical explosions are boiling liquid expanding vapour explosion (BLEVE) and rapid phase transition (RPT) explosion.
在此基础上,分析了液氢泄漏后可能发生的物理爆炸(如沸腾液体膨胀蒸气爆炸(BLEVE) 爆炸和急剧相变(RPT)爆炸)以及化学爆炸(如爆燃、高速爆燃、爆轰和气云爆炸)的特点。
补充资料:核爆炸地震波探测(见核爆炸探测)
核爆炸地震波探测(见核爆炸探测)
nuclear explosion seismic detection
hebaozho dizhenbo tanee核爆炸地震波探测(nuclear explos,onseismie detecuon)见核爆炸探汉,l。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条