Predicting the Burnishing Force for Cylindrical Workpieces with Amodified Surface Layer

O. Fanidi, Alexandre Kostryukov, A. Shchedrin
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Abstract

Abstract A mathematical module for predicting and analysing the drawing forces is formed and verified. The process used in the current study is drawing. Geometric parameters of the deformation zone and the “selective transfer phenomenon” are also taken into consideration. The experimental verification is conducted through two tests: In the first test, the experimental blanks are cylindrical rods (steel 45, length 150 mm), and are preliminary turned, and the drawplate made of steel 9xc, are used. Regular micro-relief (RMR) hardens the working surfaces of the drawplate. In the second test, the same conditions are applied except for the samples, which represent solid cylindrical billets made of steel 45 with a complicatedly modified surface layer, including a brass film, regular microgeometry and a “servo-witte” copper film. As a result, in the first experiment, the discrepancies are in the range of -29.1% up to +23%. In the second experiment, the discrepancies are in the range of +1.38% up to +48.9%.
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表面改性圆柱件抛光力的预测
建立并验证了拉深力预测与分析的数学模块。本研究中使用的过程是绘图。同时考虑了变形区的几何参数和“选择性传递现象”。通过两次试验进行实验验证:第一次试验中,实验毛坯为圆柱形棒(钢45,长150mm),初步车削,采用9xc钢拉拔板。常规微浮雕(RMR)使拉拔板的工作表面硬化。在第二次测试中,除了样品外,采用相同的条件,样品是由45钢制成的实心圆柱形钢坯,其表面层经过复杂的修饰,包括黄铜膜,规则的微几何形状和“伺服写入”铜膜。因此,在第一次实验中,差异在-29.1%到+23%的范围内。在第二个实验中,差异在+1.38%到+48.9%的范围内。
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