径向锻造

  • 网络radial forging
径向锻造径向锻造
  1. 实心锤头径向锻造压应力分析

    Compressive Stress Analysis of Radial Forging with Solid Hammers

  2. 车轴径向锻造过程分析

    The Radial Forging Process of the Axle

  3. 轴类零件径向锻造压入量研究

    Research on Radial Feed Quantity of Shaft Parts in Radial Forging

  4. 径向锻造终锻过程的流函数法解析

    Stream Function Method for Final Forging Process in Radial Forging

  5. 另外,建立的身管径向锻造变形区应变方程也较好的预测了应变值。

    The strain equation built here also predicted the strain of the radial forging process well .

  6. 径向锻造技术的应用

    Application of Radial Forging Technology

  7. 液压式径向锻造机的校正

    Hydraulic Radial Forging Press Calibration

  8. 径向锻造技术作为身管制造的一种方法,由于残余压缩应力的存在,可以提高身管的强度和疲劳性能。

    Radial forging process can improve the strength and fatigue property of the tubes as the residual compressive stress exists .

  9. 阐述了锻造成形技术的发展进程,锻造变形技术已由最初的人力锻造发展到全部自动化控制的径向锻造。

    The development process of forming technology with forging is described . This technology has been developed from the original manual forging to radial forging in full automatic control .

  10. 径向锻造可获得全截面细晶材料,并实现高合金难变形材料由锭到材的一火次锻造。

    The gross section fine grain material can be obtained by radial forging . One heat forging from ingot to finished products of high alloy with hard deformation can be realized .

  11. 在径向锻造过程中,锻打压强、应力状态和材料流动形式受如锻造比、芯棒和锤头的形状、界面之间的摩擦系数和材料特性等各种参数的影响。

    During the radial forging process , the forging pressure , stress state and material flows are influenced by forging rates , the die shape , the friction coefficient between surfaces and material property .

  12. 指出了径向锻造变形技术具有锻造效率高、变形温降小、锭料或坯料表面变形较为充分等诸多优点。

    It has been pointed out radial forging technology has a series of advantages including high forging productivity , slight temperature reduction in the process of forging deformation and adequate surface deformation of the ingot or billet .

  13. 身管线弹膛采用径向锻造工艺一起锻出,不但能保证锻件的高精度,而且可以减少后续机械加工,还能使身管线膛与弹膛保持极高的同轴度。

    When the rifling and chamber of barrel are produced at same time with the radial forging process , it does not only guarantee higher forging precision and less following machine processing , but also let the rifling and chamber of barrel maintain extremely high proper alignment .