Effect of Radial Directional Vibration-Assisted Ductile-Mode Grinding of Al2O3 Ceramics

IF 0.9 Q4 AUTOMATION & CONTROL SYSTEMS International Journal of Automation Technology Pub Date : 2024-03-05 DOI:10.20965/ijat.2024.p0198

Kenichiro Imai

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Abstract

This paper proposes a machining method that uses ultrasonic vibration in the radial direction of the grinding wheel. This method is expected to suppress machining heat because the wheel and workpiece are in intermittent contact with each other. The abrasive grains on the working surface of the wheel act dynamically in the direction of cutting into the workpiece. In this paper, the constant-load grinding of Al2O3 ceramics, a hard and brittle material, was performed. Ductile-mode surfaces were more easily obtained when vibration support was used. The standard deviation of the brightness distribution of the ground surface can be used to evaluate the ductile-mode surface. In this study, the value was less than 16. The results of the measurement of tangential/normal grinding force ratio and the rear-surface temperature of the workpiece confirmed that the values were higher when ductile-mode machining was performed, compared with brittle-mode machining. Furthermore, a vibration-assisted removal model was used to discuss the results of the ductile-mode surfaces, which were more easily obtained when vibration-assisted machining was used.

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Al2O3 陶瓷的径向定向振动辅助韧性模式磨削效果

本文提出了一种在砂轮径向使用超声波振动的加工方法。由于砂轮和工件之间是间歇性接触，因此这种方法有望抑制加工热量。砂轮工作面上的磨粒在切入工件的方向上起动态作用。本文对 Al2O3 陶瓷这种硬脆材料进行了恒载磨削。使用振动支撑时，更容易获得延展模式表面。磨削表面亮度分布的标准偏差可用来评估延展模式表面。在本研究中，该值小于 16。切向/法向磨削力比和工件后表面温度的测量结果证实，与脆性模式加工相比，韧性模式加工时的温度值更高。此外，还使用了振动辅助去除模型来讨论韧性模式表面的结果，在使用振动辅助加工时，更容易获得韧性模式表面。

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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来源期刊

International Journal of Automation Technology AUTOMATION & CONTROL SYSTEMS-

CiteScore

2.10

自引率

36.40%

发文量