用于预测切削力的inconel-718热辅助车削三维有限元模拟

A. K. Mahmoud, Khalaf Nasralla, S. Shihab
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引用次数: 1

摘要

研究了不同切削参数(切削速度、进给速度和切削深度)对干式硬车削加工中Inconel 718切削力的影响。基于ABAQUS/explicit对正交车削和斜车削过程进行了三维有限元仿真。结果表明,三维有限元建模能够可靠地预测车削过程中的切削力,并与实验结果进行了验证。结果表明,三维斜加工模型虽然计算时间较大,但与正交模型相比,结果更为准确。切削力随切削速度和工件温度的增加而减小,随进给量和切削深度的增加而增大。
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3D FE- SIMULATION OF THERMALLY ASSISTED TURNING OF INCONEL-718 FOR CUTTING FORCES PREDICTION
This paper investigates the effect thermally assisted turning (TAT) of different cutting parameters (cutting speed, feed rate, and depth of cut) on cutting force under dry hard turning process of Inconel 718. 3D FE simulations based ABAQUS/explicit of both orthogonal and oblique turning processes were performed. the results indicated that 3D FE modeling provides the reliability to predict cutting forces during turning process by validation the obtained results with the experimental results. Also, the results indicated that 3D models of oblique machining have more accurate results as compare with orthogonal models although computing time is larger for 3D oblique machining models. In addition, the results show that the cutting force decreases significantly with increase cutting speed and workpiece temperature while it increases with increase the feed rate and depth of cut.
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