李贝贝,严军,刘雨生,等.曲轴轮毂中间齿精压成形工艺研究[J].精密成形工程,2014,6(3):10-14,19.
LI Bei-bei,YAN Jun,LIU Yu-sheng,et al.Precision Coining Process of Crankshaft Hub Tooth[J].Journal of Netshape Forming Engineering,2014,6(3):10-14,19. |
| 曲轴轮毂中间齿精压成形工艺研究 |
| Precision Coining Process of Crankshaft Hub Tooth |
| 投稿时间:2014-03-13 修订日期:2014-05-01 |
| DOI:10.3969/j.issn.1674-6457.2014.03.003 |
| 中文关键词: 曲轴轮毂 中间齿 精压 数值模拟 试验验证 |
| 英文关键词: crankshaft hub precision coining numerical simulation experimental validation |
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| 摘要点击次数: 5545 |
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| 中文摘要: |
| 目的 为了解决某型号曲轴轮毂中间齿形充填困难的问题。 方法 对齿形精压过程进行了数值模拟,分析了不同摩擦因数、减压孔尺寸对金属流动分布、等效应变及成形载荷的影响,并进行了试验验证。 结果 摩擦因数影响变形金属轴向和径向的流动分布,减压孔尺寸影响分流面位置及金属的流动速度;根据模拟结果,生产出了合格的产品。 结论 摩擦因数过小,径向流动阻力减小,不利于金属轴向流动充填齿形,较大的摩擦因数有利于齿形充填,但是摩擦因数过大会导致成形载荷过大;随着减压孔直径增大,金属的分流面外移,对大直径处齿形充填不利。 模拟结果对实际生产具有重要的指导意义。 |
| 英文摘要: |
| Objective In order to solve the filling difficulty of one type of crankshaft hub tooth. Methods The precision coining process was studied by numerical simulation, the effects of different friction coefficient and pressure relief hole size on metal flow distribution, equivalent strain and forming load were analyzed, and the results were validated by experiments. Results The friction coefficient affected the deformation of metal flow in axial and radial directions, and the pressure relief hole size affected shunt surface position and metal flow velocity. According to the simulation results , qualified products were produced. Conclusion The radial flow resistance was reduced because of too low friction coefficient, which was not conducive to the axial flow of filling tooth shape. Larger friction coefficient was advantageous for tooth filling, but excessive friction coefficient led to large forming load. As the relief hole diameter increased, the shunt of the metal surface was moving outwards, which was adverse to the tooth filling. The simulation results guides the production practice, and is of great significance. |
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