基于DEFORM-3D轴向振动钻削304不锈钢有限元仿真

Finite element simulation of 304 stainless steel based on DEFORM-3D axial vibration drilling

  • 摘要: 难加工材料微小孔钻削过程中存在钻削力大、断屑难及钻削温度高等加工问题,而轴向振动钻削方法可以解决此类问题。基于轴向振动钻削机理,对轴向振动钻削的运动特性和变厚切削特性进行了分析。通过DEFORM-3D软件建立了轴向振动钻削有限元模型,对304不锈钢进行了振动频率为550 Hz,振幅为16 μm,转速为3 000 r/min,进给量为50 μm/r的轴向振动钻削和普通钻削仿真试验,对比分析了两种加工过程中的切屑形态、轴向力和扭矩等。结果表明:与普通钻削相比,轴向振动钻削具有更好的断屑效果,可以降低平均轴向力约48.1%,降低平均扭矩约38.2%。

     

    Abstract: Axial vibration drilling method can solve the problems of large drilling force, difficult chip breaking and high drilling temperature in the micro hole drilling process of difficult-to-cut materials. Based on the mechanism of axial vibration drilling, its kinematics and variable-thickness cutting characteristics were analyzed. In this paper, the finite element model of axial vibration drilling was established by using DEFORM-3D software, the axial vibration drilling and conventional drilling simulation tests of 304 stainless steel were carried out under the vibration frequency of 550 Hz, the amplitude of 16 μm, the speed of 3 000 r/min and the feed rate of 50 μm/r. The chip morphology, the axial force and torque in the two machining processes were compared and analyzed. The results show that compared with the conventional drilling, the axial vibration drilling has the better chip breaking effect, which can reduce the average axial force by about 48.1% and the average torque by about 38.2%.

     

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