变形高温合金

  • 网络wrought superalloy
变形高温合金变形高温合金
  1. 微量元素磷在铁镍基变形高温合金中的作用

    Effect of trace P on Fe-Ni based wrought superalloy

  2. Nb对Ni-Cr-Ti型变形高温合金稳态蠕变行为的影响

    Influence of Nb on steady-state creep behaviour of Ni-Cr-Ti type wrought superalloy

  3. Ni基变形高温合金小孔攻丝扭矩的试验研究

    Experimental Investigation on Small-hole Tapping Torque of Deformable Ni-base High-temperature Alloy

  4. Si对一种镍基变形高温合金脆性转变的影响

    Effect of silicon on the transition of brittleness in a nickel base wrought superalloy

  5. 难变形高温合金GH742的塑性改善

    Improvement of ductility of difficult-to-forge superalloy GH 742

  6. 应用神经网络表征变形高温合金的本构关系

    Using artificial neural network to characterize constitutive relationship for wrought superalloys

  7. 变形高温合金成型质量控制中的转换研究

    Exchangeable search in forming quality control of high temperature alloy deformation

  8. 难变形高温合金喷射沉积工艺对微观组织与力学性能的影响

    Influence of spray forming on microstructure and properties of difficult-to-forge superalloy

  9. 应用模糊数学预测变形高温合金锻件晶粒度

    Predicting Grain Size of Wrought Superalloys Forging Using Fuzzy Mathematics

  10. 镍基变形高温合金中弯曲晶界形成的机制

    The formation of zigzag grain boundary in wrought Ni-base superalloys

  11. 高合金化镍基变形高温合金中弯曲晶界的初步研究

    A study of zigzag grain boundary in high alloyed wrought nickel-base superalloy

  12. 一种喷射成形难变形高温合金的组织研究

    The Study on Microstructure of a Hard-deformed Spray Formed Superalloy

  13. 人工神经网络预测变形高温合金的持久强度

    Prediction of creep-rupture strength of wrought Ni base superalloys using artificial neural network

  14. 一种新的变形高温合金强化方法&磷硼微合金复合强化

    A New Method for Strengthening Wrought Superalloys : micro-alloying with Phosphorus and Boron

  15. 将人工神经网络和耗散结构理论相结合以确定变形高温合金的锻造热力参数

    Combining ANN with Dissipative Structure Theory to Determinate the Thermomechanical Parameters for Wrought Superalloys

  16. 磷、硼微合金化&一种发展高性能变形高温合金的新途径

    Micro-alloying with Phosphorus and Boron : A New Way to Develop Advanced Wrought Superalloys

  17. 镁微合金化变形高温合金的蠕变行为

    Creep behaviors of Mg microalloyed Wrought Superalloys

  18. 涡轮盘用变形高温合金在俄国的发展

    Development of turbine disk superalloys in Russia

  19. 本文重点研究镍基变形高温合金中弯曲晶界形成的动力学过程。

    Kinetic Process of zigzag grain boundary formation ( ZGBF ) in wrought nickel-base superalloys has been investigated .

  20. 根据形成过程,分为变形高温合金合金,精密合金,粉末合金铸造。

    According to formation process , superalloys are divided into deformation alloy , precision casting alloy and powder alloy .

  21. 从变形高温合金成型过程中的因果参量转换问题讨论了成型质量控制方法。

    The methods of quality control of high temperature alloys deformation are discussed from the problems that the conditions are turned into results in the high temperature alloys forming processes .

  22. 在等温恒应变速率压缩试验的基础上,首次应用模糊数学方法建立表征变形高温合金锻件晶粒度的隶属程度与锻造热力参数之间的定量关系,即所谓隶属函数。

    Based on the results of isothermal constant strain rate compression test , the membership function for characterizing the grain size of superalloys forging was first established through forging thermomechanical parameters .

  23. 采用塑性加工方法,本文初步探索了预变形对PREP高温合金粉末及热等静压后合金显微组织的影响。

    By plastic processing method , the effects of pre-deformation on the microstructures of PREP powders and the HIPed alloys were studied .

  24. 利用激光多层熔覆工艺制出表面平整无变形的FGH95高温合金样品。

    FGH95 superalloy samples were formed by multiple-layer laser cladding with flat surface and without distortion .

  25. 氮气雾化喷射沉积变形镍基高温合金

    A nitrogen spray atomized and deposited Ni Base Superalloy

  26. 一种难变形镍基高温合金加工工艺的研究

    Study on Processing of Difficult-to - deform High Temperature Alloy of Nickel Base

  27. 利用氮气雾化喷射沉积技术成功地获得了宇航用变形镍基高温合金柱形坯。

    A Ni base superalloy columnar preform were produced through nitrogen spray atomization and deposition .

  28. 分析了变形温度对MP159高温合金组织、性能的影响规律,得出了该合金合理的变形温度范围。

    The effect of deformation temperature on microstructure and property of MP159superalloy has been analysed and a reasonable range of deformation temperatures for MP159 alloy has been obtained .

  29. 本文讨论了在锻造过程中不同变形温度、变形程度、变形速度对高温合金组织和性能的影响。

    In this paper , the influence of various deformation temperature , deformation degree and deformation velocity on structure and properties of superalloys in forging process was discussed .