Development of Technological Restrictions When Operating Disc Polymer-Abrasive Brushes

P. Tryshyn, N. Honchar, Eduard Kondratiuk, D. Stepanov
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引用次数: 4

Abstract

Polymer-abrasive brush rotating tools are increasingly used for finishing operations in automated manufacturing. Given this, studying the process of their fibers’ wear has become important; and such a type of wear as the detachment of a whole fiber at the point of fixing has not been investigated in detail up to now. This phenomenon can lead to the disruption of stable equipment operation and the catastrophic wear of brushes. Therefore, it is a relevant task to search for and identify those limitations that could prevent fibers from detachment. This study involved the disc and cylindrical polymer-abrasive brushes as the most common in production. The current study has established that the detachment occurs at an unfavorable combination of the processing regimes and brushes’ parameters at rotations close to the limits specified by the manufacturer. When checking the temperature level at the fiber anchoring point, it was determined that the heating of the fibers in this region during operation was not enough to melt the polymeric base of the fibers and detach them. It has been established that the reason for the detachment of fibers is the accumulation of fatigue changes, which significantly accelerate under the limit modes. Studying the cyclical durability of fibers has made it possible to determine the ratios of critical processing modes to the tool parameters, which lead to the fatigue destruction of fibers at their fixing point. The following technological restrictions have been defined to warrant that fibers are not detached: ‒ it is not recommended to use circumferential cutting speeds exceeding 40 m/s; ‒ the tension during operation should not exceed 10 % of the fibers’ overhang magnitude. These limitations ensure the integrity of the tool, its high durability, as well as the stability of the process of parts’ finishing machining under an automated mode
盘式聚合物磨料刷操作技术限制的发展
聚合物磨料刷旋转工具越来越多地用于自动化制造的精加工操作。鉴于此,研究其纤维的磨损过程变得非常重要;而对于整根纤维在固定点脱落的磨损,目前还没有详细的研究。这种现象会导致设备稳定运行的中断和电刷的灾难性磨损。因此,寻找和识别那些可能阻止纤维脱离的限制是一项相关的任务。本研究涉及到生产中最常见的圆盘和圆柱形聚合物磨料刷。目前的研究已经确定,在接近制造商规定的极限旋转时,在加工制度和电刷参数的不利组合下发生分离。在检查纤维锚定点的温度水平时,确定在操作过程中该区域的纤维加热不足以熔化纤维的聚合物基并使其分离。结果表明,纤维脱落的原因是疲劳变化的累积,疲劳变化在极限模态下显著加速。研究纤维的循环耐久性可以确定关键加工方式与刀具参数的比值,从而导致纤维在固定点处的疲劳破坏。为保证纤维不脱落,定义了以下技术限制:-不建议使用超过40米/秒的周向切割速度;-运行时的张力不应超过纤维悬垂量的10%。这些限制保证了刀具的完整性、高耐用性以及在自动化模式下零件精加工过程的稳定性
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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