1)structure optimization of pressure case耐压壳体结构优化
2)pressure hull耐压壳体
1.Optimum design of multiple intersecting spheres great deep-submerged pressure hull;藕节形大深度潜水器耐压壳体优化设计
2.Optimal design of the pressure hull structure of a deep sea glider;深水滑翔机器人耐压壳体结构优化设计
3.The static mechanical property of the spherical and multiple intersecting spherical deep-submerged pressure hulls and the influences of diversified parameters have been investigated theoretically and numerically in this paper under the guidance of my tutor.本文通过理论分析和数值计算对球形和藕节形大深度潜水器耐压壳体的强度和稳定性性能进行系列研究,并分析了各种参数对其力学性能的影响,参考规范编程对这两种耐压壳体进行优化设计,为球形和藕节形大深度潜水器耐压壳体的结构设计提供了依据和参考。
英文短句/例句
1.Optimum Design and Structure Analysis for Cylindrical Pressure-resisting Hull of Submersible Vessel潜艇圆筒形耐压壳体结构的分析与优化
2.The Response Analysis and Optimum Design of Great Deep-Submerged Pressure Hulls;大深度潜水器耐压壳体结构响应分析与优化设计
3.Finite Element Analysis of the Sealing Performance of O-ring in Pressure Shell for AUVs水下机器人耐压壳体O形圈密封性能有限元分析
4.Study on Manufacture Technology of Composite Tropedo Shells under High Hydrostatic Pressure;某型水雷复合材料耐外压壳体制造技术研究
5.Transfer case,different size Hydrant;Compreser body precisicen casting; Duefile casting; Wear high-chromium iron casting and heating-proof casting.变速箱、消防栓壳体系列;制冷压缩机精密铸件;球铁铸件;耐磨高铬铸铁件及耐热件。
6.The Reliability of Submarines Pressure Cylindrical Ring Hull潜艇耐压环肋圆柱壳结构可靠性分析
7.Study of structural optimization problem for multiple intersecting spherical pressure hulls多球交接耐压壳结构优化问题的研究
8.Induced Overvoltage Withstand Test Method of 110kV Shell-Type Furnace Transformer110kV级壳式电炉变压器感应耐压试验方法
9.Sintering as a whole offers resistance against friction, pressure and corrosion, with long service life.整体烧结,耐磨耐压耐腐,使用寿命长。
10.hydraulic oil pump driving device housing液压油泵传动装置壳体
11.Experimental Investigation on Case Rupture Test of HV Shunt Capacitors and Discussion on Some Relevant Problems高压并联电容器壳体耐爆能力试验研究的新进展及相关问题的探讨
12.Experimental study circumferential weld residual stress of submarine pressure hull潜艇耐压壳环焊缝焊接残余应力模拟实验研究
13.Multi-objective optimization analysis of circular cylindrical ring-stiffened shell of submarine with deep diving depth大深度潜器耐压圆柱壳的多目标优化设计研究
14.Optimization Design of Static and Dynamic Characteristics of Compressive Shell Based on iSIGHT Platform基于iSIGHT的耐压壳静动力学综合优化设计
15.Structural optimization of multiple intersecting spherical pressure hulls based on Kriging model基于Kriging模型的深潜器多球交接耐压壳结构优化
16.Effects of initial defects to the limit load of pressure cylinder shell初始缺陷对耐压圆柱壳结构极限承载力的影响
17.water-tight case不透水外壳, 耐水外壳
18.Reliability Design of Pressure Vessel and Its Application on Solid Rocket Motor Vessel压力容器壳体的可靠性设计及在固体火箭发动机壳体上的应用
相关短句/例句
pressure hull耐压壳体
1.Optimum design of multiple intersecting spheres great deep-submerged pressure hull;藕节形大深度潜水器耐压壳体优化设计
2.Optimal design of the pressure hull structure of a deep sea glider;深水滑翔机器人耐压壳体结构优化设计
3.The static mechanical property of the spherical and multiple intersecting spherical deep-submerged pressure hulls and the influences of diversified parameters have been investigated theoretically and numerically in this paper under the guidance of my tutor.本文通过理论分析和数值计算对球形和藕节形大深度潜水器耐压壳体的强度和稳定性性能进行系列研究,并分析了各种参数对其力学性能的影响,参考规范编程对这两种耐压壳体进行优化设计,为球形和藕节形大深度潜水器耐压壳体的结构设计提供了依据和参考。
3)optimum design / pressure cylidrical shell最优化设计/耐压圆柱壳
4)pressure structure耐压结构
1.An application of hybrid GA and SM algorithm in optimal design of pressure structure;基于遗传算法和可变多面体算法的耐压结构混合优化
2.An experimental system for external pressure fatigue is the necessary equipment for fatigue performance studies of underwater pressure structures,such as deep sea vehicles,submarines and offshore installations,For the sake of promoting development of ocean exploitation and deep sea vehicle technology,CSSRC has designed and developed such a system in the light of economical and practical criteria.外压疲劳试验系统是研究潜艇、深潜器、海洋工程、水下耐压结构物疲劳性能的必要系统。
3.A new pressure structure is proposed to solve the contradiction between the diameter of the pressure structure and the height of the nuclear reactor through the vertical placement of the reactor cabin.本文提出了一种新的耐压结构型式,通过将中部水平堆舱段垂直布置,解决耐压壳体直径与反应堆高度的矛盾。
5)shell structure壳体结构
1.Probability limit analysis for shell structures;具有随机强度的壳体结构概率极限分析
2.On the basis of mechanics theory of special large-span shell structure, a new type of shell shotcrete was studied and designed.根据地面大跨度壳体结构的力学原理,研究和设计了地下巷道新型的网壳喷层结构。
3.Based on the mechanical theory of the special large-span shell structure, a new type of shell shotcrete is designed to improve the sustainability with fewer materials.根据壳体结构的力学原理设计地下新型网壳喷层结构,大幅度提高喷层的抗弯能力,同时使喷层整体具有一定的可缩性,能承受强大变形地压及采动荷载,达到用较少材料又提高喷层支撑能力与让压的目标,较好解决了加强支撑、喷层合理配筋、简化施工作业、降低材料消耗等问题,在萍乡软岩巷道中进行了工业性试验。
6)solid shell structure体壳结构
延伸阅读
反应堆耐压壳体钢反应堆耐压壳体钢steel for pressure shell of reactor 低合金高强度钢。通常所说的反应堆耐压壳体用钢就 是指这类钢而言。 简史压水堆耐压壳体是在高温、高压和中子辐 照等苛刻条件下使用的,因此对材料的性能要求很高。 1945年以美国和欧洲为代表的工业发达国家,在压水 堆耐压壳体上首先使用了焊接性较好、强度较高的碳 素锅炉钢板A212B和锻材A35OLE3,是第一代压水 堆耐压壳体用钢;1956年,为改进提高钢的淬透性和 高温性能,压水堆耐压壳体用钢,改用锰铝系的低合金 高强度钢,是第二代反应堆耐压壳体用钢。随着核电站 向高功率大型化方向的发展,反应堆压力容器的直径 和壁厚均增大。为保证厚截面钢材的良好综合性能,在 6。年代中期,反应堆耐压壳体又开始使用淬透性更好 的锰钥镍系低合金高强度钢A533B和Asos一2,同时 热处理规范也由原常化处理改为调质处理,这是第三fanyingdui na一yo ket,yong gang代反应堆耐压壳体用钢。1970年在使用反应堆耐压壳反应堆耐压壳体用钢(Steelfo:Pressure体用锻钢ASOS一2的过程中,发现其堆焊层有“再热裂shell of reactor)系指制造核裂变反应耐压容纹”存在,直接影响使用的安全性。为减少“再热裂纹”器所使用的低合金钢。核反应堆的类型很多,主要有重发生的倾向,适当地减少了钢中的碳、铬、钥等硬化元水堆、轻水堆、沸水堆、压水堆、气冷反应堆、熔盐反应素和硫、磷等杂质元素,相应提高了锰含量,开发出堆和核聚变反应堆等,其中使用最多的是压水堆,约占ASOS一3钢。上述的发展过程,可简要地用表归纳如表70%一80%。反应堆类型不同,其耐压壳体使用的钢类所示·也不同。压水堆耐压壳体主要使用Asos一3、A533B等 反应堆耐压壳体用钢的发展琪牛户 注:N一正火侣R一消除应力退火;NT一正火加回火;QT一淬火加回火。 目前以美国为代表的西方工业发达国家,反应堆此类钢材大致可分为两大类:板材和锻件。
