THE STUDY OF INFLUENCE OF ULTRASONIC DRESSING ON THE ENERGY-FORCE INDICATORS OF CYLINDRICAL PLUNGE GRINDING

S. V. Murashkin, A. Selivanov, V. Malyshev
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Abstract

: The authors carried out the experimental study of the influence of ultrasonic dressing of grinding wheels on the energy-force indicators of the grinding process. The study showed the degree of ultrasonic dressing influence on the cylindrical plunge grinding indicators in the automatic cycle of processing. The authors identified that ultrasonic dressing of grinding wheels with a dressing tool executing vibrations with the frequency of 22 kHz and the amplitude of 10…15 µm allows decreasing the supporting face of a grinding wheel texture 4 – 5 times through the increase of the abrasive grains quantity with the relatively sharp micro-edges and microcracks. It is shown, that the distinctive features of formation of the grinding wheel working surface texture during ultrasonic dressing ensure the reduction of cutting perpendicular force about by 30 % during the whole period of grinding wheel life as well as allows increasing the wheel life 1.5…2 times. It is noted that during the ultrasonic dressing, the abrasive grains break due to the repetitive impact loading creating numerous cutting edges and microcracks at the less dressing depth than after traditional dressing. In the result of interference of si-nusoidal trajectories of diamond points of a dressing tool, on a grinding wheel, a certain cammed texture forms, what de-creases the wheel bearing surface. The existence of two texture components explains the higher cutting power of a grinding tool compared to the traditional dressing.
超声修整对外圆切入磨削能量-力指标的影响研究
对超声修整砂轮对磨削过程能量-力指标的影响进行了实验研究。研究表明,在加工自动循环中,超声修整程度对外圆切入磨削指标的影响。研究结果表明,采用频率为22 kHz、振幅为10 ~ 15µm的修整工具对砂轮进行超声修整,可以通过增加磨粒数量,形成相对尖锐的微边缘和微裂纹,从而使砂轮结构的支撑面减小4 ~ 5倍。结果表明,超声修整过程中砂轮工作面织构形成的独特特征,使砂轮在整个寿命周期内切削垂直力减小30%左右,使砂轮寿命提高1.5 ~ 2倍。值得注意的是,在超声修整过程中,磨料颗粒由于重复的冲击载荷而破裂,在较少的修整深度处产生了许多切削刃和微裂纹。修整工具的金刚石点的si-nusoidal轨迹干涉的结果,在砂轮上形成一定的凸轮纹理,减少了砂轮承载表面的折痕。两种织构成分的存在解释了与传统修整相比,研磨工具具有更高的切削力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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