压力容器

yā lì rónɡ qì
  • pressure vessel
压力容器压力容器
  1. 压力容器设计时厚度附加量C的讨论

    Discussion on Additional Value C of Wall Thicknes in Pressure Vessel Design

  2. 压力容器(壳体)MX结构与性能可靠性分析

    The reliability analysis of structure and performance on the pressure vessel m_x

  3. X射线实时成像系统在锅炉压力容器管材探伤中的应用

    Application of X-ray Real Time Imaging System in Boiler and Pressure Vessel Tube NDT

  4. 基于ANSYS的压力容器壁厚优化设计

    Optimal Design of Thickness of Pressure Vessel Based on ANSYS

  5. 药芯焊丝CO2焊在复合钢制压力容器中的应用

    Application of co_2 arc welding with flux cored wire to stainless clad steel pressure vessel

  6. 基于ANSYS对压力容器管板厚度的优化设计

    Optimal design of the thickness of pressure container tube plate based on ANSYS

  7. ANSYS二次开发及其在压力容器热态密封分析中的应用

    Redevelopment of ANSYS and Its Application in the Thermal Sealing Analysis of Pressure Vessel

  8. 压力容器表面裂纹弹塑性J积分特性研究

    Study of Elastic - plastic J-integral Characters of Surface Cracks in Pressure Vessel

  9. 手工TIG焊在镍制压力容器制造中的应用

    Application of Manual TIG Welding in Nickel Pressure Vessel Manufacturing

  10. 典型压力容器用钢在湿H2S环境下应力腐蚀开裂特性分析与试验验证

    Analysis and Experimental Verification of SCC characteristics of Typical Chinese Steels for Pressure Vessels under Wet H_2S Environment

  11. 基于UG的压力容器复合型面数控加工技术研究

    The Research of Numerical Control Machining Technology in Pressure Vessel Compound Profile Faces Based on UG

  12. 新型压力容器用钢CCT曲线的测定

    Measurement of CCT Curve of New Steel Used for Pressure Vessel

  13. 钢制压力容器残余应力的Mises屈服条件确定法

    Method on determining Mises yield condition of residual stress for steel pressure vessel

  14. 本文使用有限元软件ANSYS对纤维缠绕压力容器进行了几何非线性分析,并对容器进行了强度以及失效研究。

    Geometrical nonlinear analysis of filament-winding pressure vessel with ANSYS are carried out in this paper . The failure and the strength of vessel were also studied .

  15. 10MW高温气冷堆压力容器主法兰结构的有限元接触分析

    Contact Stress Analysis for the Flanges of HTR-10 Pressure Vessel

  16. 本文对日本科学技术公司开发的压力容器用Cr-Mo钢数据库系统的数据结构、数据分析方法以及计算机软硬件系统作了简要介绍。

    In this paper , the data construction , data analysis technique and computer system of database for Cr-Mo pressure vessel steels developed by Japan Science and Technology Corporation .

  17. EAST真空室作为超高真空压力容器是EAST超导托卡马克核聚变实验装置的关键部件之一,是等离子体放电的直接场所,其获得的真空度质量直接影响装置运行时等离子体的各项基本物理参数。

    The vacuum vessel as an ultrahigh vacuum pressure vessel is one of the important components of the EAST device , providing high quality vacuum conditions for the plasma discharge , which will affect greatly all kinds of plasma parameter .

  18. 裂纹尺寸模糊表征下的含缺陷压力容器R6评定方法

    The R6 Assessment Method for the Pressure Vessel with Defects Based on the Fuzzy Expression of Crack Size

  19. 用于压力容器破前漏(LBB)断裂分析的各种评估理论及计算精度研究

    Studies on the various assessment theories and their computational precisions used to LBB fracture analysis of pressure vessels

  20. 用Y型坡口拘束抗裂试验方法评定了Mn-Mo-Nb型压力容器用低合金高强度钢SR裂纹敏感性。

    The susceptibility of Mn-Mo-Nb steel , used for pressure vessel steel , to SR cracking has been evaluated by using of the Y-type groove SR crack-resisting test .

  21. 针对压力容器退火炉这一典型的惯性、纯滞后、时变非线性控制系统的特点,在分析了模糊控制与PID控制优缺点的基础上,提出了模糊自整定PID控制方案。

    It analyzes the annealing furnace , which possesses a typical non-linear object , the features of inertia , pure lag , time-variableparameter , etc. Combined on the characteristics of fuzzy and PID control , it adopts a self-tuning fuzzy PID control system to control the tem-perature of annealing furnace .

  22. 失水事故工况(LOCA)下反应堆下降环腔内的流动和传热研究,对反应堆压力容器(RPV)的安全具有重要的意义。

    The study on flow and heat transfer in downcomer under loss of coolant accident ( LOCA ) is important to the safety of reactor pressure vessel ( RPV ) .

  23. 比较了两种测量方法检测压力容器的可行性,阐述了LDMS系统在压力容器焊接定位和加工过程中的应用。

    This paper compares the feasibility of two measuring methods which are used to detecting pressure container . It also describes the details of application of LDMS system on welding orientation and machining orientation of the container .

  24. 反应堆压力容器(RPV)是核电站中的重要构件,由于制造工艺的限制以及运行工况的影响,核电站的整个服役周期内RPV上可能会存在裂纹类缺陷。

    Reactor pressure vessel ( RPV ) is an important component in nuclear power plants , the crack-like defects may exist in RPV during the whole operation life of nuclear power plants as a result of the manufacturing process or the operation condition .

  25. 阐述夹套容器的结构设计、强度计算等技术要求,进一步完善GB150-1998《钢制压力容器》中关于夹套容器的设计内容。

    The article explains the technical requirements on structure design and intensity calculation of jacketed vessel , and further perfects the items in Steel Pressure Ves - sel ( GB150-1998 ) concerning the design of jacketed ves - sel .

  26. 根据CVDA-84《压力容器缺陷评定规范》对1500m3丙烯球罐开罐检测时发现的超标缺陷进行脆性评定及疲劳寿命分析。

    Overproofed defects found in 1 500 m3 propylene spheric tank during opening for examination are evaluated for fragility and analyzed for fatigue life according to CVDA - 84 defect evaluation standard for pressure vessel .

  27. 对缺陷检测尺寸的表征方法进行了研究,提出了缺陷尺寸的模糊表征方法,然后建立了裂纹尺寸模糊表征下的含缺陷压力容器R6评定方法。

    A research into expression method of crack size according to fuzzy theory of non-destructive testing was made , and the fuzzy expression method of crack size was presented . Then R6 assessment method for the pressure vessel with defects based on the fuzzy expression of crack size was proposed .

  28. 采用单张全息图的ZFC(零级条纹和条纹计数相结合)条纹观察法,测量了玻璃钢压力容器的位移、表面应变及内部应变,其结果与应变仪的结果一致。

    By the ZFC method of a single hologram , a Herculite container , as an experiment , was measured . The experimental results show that the displacement and the surface and internal strain measured are in agreement with those by a strain gage .

  29. 盛装液化气体或超过常温沸点的高温液体的压力容器发生泄漏后,内部物质由于失压、过热,发生蒸汽爆炸(也叫BLEVE),从而引起内部超压。

    After leaking of the pressure vessel , in which liquefied gases or high temperature liquids over normal boiling point are loaded , the internal substances explode due to its pressure loss , overheating ( it is also called BLEVE ), and lead to internal overpressure .

  30. 疲劳裂纹是承受交变载荷压力容器常见的失效形式,对邢台钢铁公司200m3氧气球罐的裂纹检验情况进行了介绍,分析了氧气球罐疲劳失效的原因,并提出了相应对策。

    The fatigue cracks are the normal failure in pressure container to bear alternative load . The measurement and test of cracks on 200 m ~ 3 spherical oxygen tank are introduced , the reason analyzed , some counter measures proposed .