interior pressure meaning in Chinese
内部压力
内压力
Examples
- 3 . sliding bearing and isolation cover are the key parts which influence magnetic force pumps " safely running , pump ' s interior pressure and cooling holes are induced through analyzing outer and inside alnicos , sliding bearings " cooling flux
滑动轴承和隔离套是影响磁力泵可靠性的关键部件,通过分析冷却内外磁钢和滑动轴承的冷却流量,反推计算出泵内压力场,给出冷却孔设计的方法。 - Firstly , the load - deformation relationship of the flanged connection system for rocket motors is analyzed by elastic theory , in which the flanged system is regarded as integer , in the same time , the effects of interior pressure and rotation of flange ring on load - deformation of flanged connection system are considered . compared with traditional methods that neglect the rotation of flange , the present approach is closer to the actual situation
将垫片螺栓法兰作为一个整体,考虑到法兰旋转和内压对法兰连接系统受力与变形的影响,与不考虑法兰旋转的现有方法相比,能更好地反映法兰系统的受载情况。 - The interior pressure comes from the deepening reform of financial system , which shakes essentially the traditional " administration finance " , " plan finance " , and removes the monopoly of the finance step by step , so the financial institutions face the drastic competition . the exterior pressure comes from the entry of the foreign financial institutions after our country joins the wto . the foreign financial institutions own abundant fund and mature market operation , so our institutions would be eliminated through competition if they could n ' t conduct financial innovation
内部压力来自于不断深化的金融体制改革,这些改革从根本上动摇了传统的“行政金融” 、 “计划金融” ,也逐步消除了金融业内部的垄断,使金融机构面临激烈的市场竞争;外部压力来自于加入wto后外国金融机构的涌入,外国跨国金融机构具有雄厚的资金与成熟的市场运作模式,我国金融机构如不在入世后的过渡期内进行金融创新,必将遭到市场淘汰。 - The results of case a and case b were about the same , thus it was displayed that modifying structure did not cause the bursting under low pressure but the damages of the structure . second , an analytical model was developed to assess the critical buckling problem of near surface interlaminar rectangular defects in the cylindrical part of srmcs under axis and interior pressure loads . the relationships between critical strain value and the parameters of geometry and radius of cylindrical were discussed
在最大压力为水检压力的作用下,应用有限元计算出壳体的整体变形以及不同部位的各种应力(不同应力分量)和位移分量,与试验结果均比较吻合,证明采用大变形方法分析壳体宏观应力和变形是合理的, a壳体与b壳体的应力、变形情况基本相同, b壳体发生低压爆破不是由于结构参数的调整造成,而是由于各种试验导致的累积损伤造成的。