超高压容器的英文

• ultrahigh pressure vessel

• "超高压"英文翻译    ultrahigh voltage; extra-hig ...
• "容器"英文翻译    container; holder; vessel; p ...
• "高压容器" 英文翻译 :    high pressure vessel; high-pressure bottle; high-pressure vessel; pre ure ve el; pressure bomb; pressure vessel
• "多层高压容器" 英文翻译 :    multilayer hp vessel
• "高压容器材料" 英文翻译 :    vessel material
• "绕丝高压容器" 英文翻译 :    ire wound high pressure vessel; wire-wound high pressure vessel
• "外热高压容器" 英文翻译 :    externally heated pressure vessel
• "绕带式高压容器" 英文翻译 :    spirally wound high pressure vessel
• "不用火加热的高压容器" 英文翻译 :    unfired pressure vessel
• "高压容浦" 英文翻译 :    high pressure vessel steel; pressurevesselsteel
• "常压容器" 英文翻译 :    non-pressure vessel; vessel subjected to ambient pressure
• "等静压容器" 英文翻译 :    iso-static pressure vessel
• "低压容器" 英文翻译 :    low pressure vessel
• "放压容器" 英文翻译 :    let-down vessel
• "加压容器" 英文翻译 :    pressurizing vessel
• "减压容器" 英文翻译 :    pressure reducing vessel
• "耐压容器" 英文翻译 :    pressure container; pressure vessel
• "内压容器" 英文翻译 :    internal pressure vessel; internal-pressure vessel
• "受压容器" 英文翻译 :    compression tank; pressure-vessel
• "外压容器" 英文翻译 :    epv; external pressure vessels; vessels subjected to external pressure
• "无压容器" 英文翻译 :    atmospheric vessel
• "增压容器" 英文翻译 :    pressurized container
• "中低压容器" 英文翻译 :    middle and low-pressure vessel
• "超高压" 英文翻译 :    ultrahigh voltage (uhv); extra-high voltage; supervoltage; superhigh pressure; extremely-high tension; extra-high tension; hyperpressure; extrahigh pressure; supertension
• "超高压超高压" 英文翻译 :    supertension

• The theoretical proof was provided for advancing and improvement of strengthen theories to super - high pressure vessels
  为超高压容器强度理论的发展与完善提供了一定的理论依据。
• 2 ) a new method was put for primary designing super - high pressure vessels and targets of evaluating the method were also put . these targets are original creation
  2 )提出了一套超高压容器初步设计的方法和评价该方法的效果的指标,这些指标均属独创。
• In order to effectively study the residual stresses of auto - frettagea super high pressure vessel , this paper first offers a new model of the constitutive relationship of stress - strain
  摘要为了有效地研究自增强超高压容器的残余应力，本研究提出了一个新型的应力应变关系模型。
• New breakthroughs are obtained in manufacturing large - scale ultrahigh pressure container , design of ultrahigh hydraulic pressure system , design of multi - media large delay nonlinear control system , detecting state of device tested under simulation environment , modeling of in - well environment of oil field
  并在大型超高压容器制造、超高压液压系统的设计、多介质大延时非线性控制系统设计、仿真环境中试验设备工作状态的检测、油井井下环境的建模等方面取得了新的突破。
• The main innovations and contributions in the paper are as below : 1 ) the third and forth strengthen theories were analyzed and compared particularly . the reason that according extent of every theory was closed the fact to a extent was analyzed and discussed on theory integrally . the strengthen theories fitted to super - high pressure vessels was perfected further
  本论文的主要创新点和贡献如下: 1 )对最大剪应力理论和最大应变能理论进行了详细的对比分析,对各理论与实际的符合程度的原因进行了较完整的理论定性分析论述,从而进一步完善了适合于超高压容器设计的强度理论。
• This paper discussed the development general situation of the domestic and international super high pressure vessel first , and then the calculative method of stress and the homologous strength theories about the single - layer ordinary round super - high pressure vessel , single - layer autofrettage thick wall round super - high pressure vessel and shrunk - on double - layers round super - high pressure vessels were elaborated systematically
  本文在论述了国内外超高压容器的发展概况的基础上,较为系统地阐述了单层普通圆筒形超高压容器、单层自增强厚壁圆筒形超高压容器、双层缩套圆筒形超高压容器的应力计算方法及相应的强度理论。
• In this paper , shrink principle was also used to for designing and computing to the high pressure cylinder in order to prove the advantages autofrettage technique in designing of super - high pressure vessels . and the compute result gained by autofrettage technique was compared to the compute result gained from the shrink principle and original design project . it was shown from the results that the using of autofrettage technique in designing super high pressure vessel was more superiority than the shrunk principle
  为了说明自增强技术在超高压容器设计中的优点,本文也采用了缩套原理对该高压缸进行了设计计算和分析,将采用自增强技术的设计计算结果和采用缩套原理的设计计算结果及原设计方案的结果进行了比较,分析表明:采用自增强技术设计超高压容器优于采用缩套原理设计的超高压容器。