Surface roughness model of ultrasonic vibration-assisted grinding GCr15SiMn bearing steel and surface topography evaluation

IF 4.2 2区 工程技术 Q2 ENGINEERING, MANUFACTURING Advances in Manufacturing Pub Date : 2024-08-31 DOI:10.1007/s40436-024-00522-z
Xiao-Fei Lei, Wen-Feng Ding, Biao Zhao, Dao-Hui Xiang, Zi-Ang Liu, Chuan Qian, Qi Liu, Dong-Dong Xu, Yan-Jun Zhao, Jian-Hui Zhu
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Abstract

It is necessary to improve the surface performance of bearing rings and extend the service life of bearings. In this study, ultrasonic vibration-assisted grinding (UVAG) was applied to process GCr15SiMn bearing steel, considering the effects of grinding-wheel wear, overlap of abrasive motion tracks under ultrasonic conditions, elastic yield of abrasives, and elastic recovery of the workpiece on the machined surface. In addition, a novel mathematical model was established to predict surface roughness (Ra). The proposed model was validated experimentally, and the predicted and experimental results showed similar trends under various processing parameters, with both within an error range of 12%–20%. The relationships between the machining parameters and Ra for the two grinding methods were further investigated. The results showed that increases in the grinding speed and ultrasonic amplitude resulted in a decrease in Ra, whereas increases in the grinding depth and workpiece speed resulted in an increase in Ra. Furthermore, the Ra values obtained using the UVAG method were lower than those of conventional grinding (CG). Finally, the influence of ultrasonic vibration on the surface topography was investigated. Severe tearing occurred on the CG surface, whereas no evident defects were observed on the ultrasonically machined surface. The surface quality was improved by increasing the ultrasonic amplitude such that it did not exceed 4 μm, and a further increase in ultrasonic amplitude deteriorated the surface topography. Nevertheless, this improvement was superior to that of the CG surface and was consistent with the variation in Ra.

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超声振动辅助磨削 GCr15SiMn 轴承钢的表面粗糙度模型和表面形貌评价
有必要改善轴承套圈的表面性能,延长轴承的使用寿命。本研究将超声波振动辅助磨削(UVAG)应用于加工 GCr15SiMn 轴承钢,考虑了砂轮磨损、超声波条件下磨料运动轨迹重叠、磨料弹性屈服和工件弹性恢复对加工表面的影响。此外,还建立了一个新的数学模型来预测表面粗糙度(Ra)。实验验证了所提出的模型,在各种加工参数下,预测结果和实验结果显示出相似的趋势,误差范围均在 12%-20% 之间。进一步研究了两种磨削方法的加工参数与 Ra 之间的关系。结果表明,磨削速度和超声波振幅的增加会导致 Ra 值的降低,而磨削深度和工件速度的增加则会导致 Ra 值的升高。此外,使用 UVAG 方法获得的 Ra 值低于传统磨削 (CG)。最后,研究了超声波振动对表面形貌的影响。CG 表面出现了严重的撕裂,而超声波加工表面则没有发现明显的缺陷。通过增加超声波振幅,使其不超过 4 μm,表面质量得到改善,而进一步增加超声波振幅则会使表面形貌恶化。然而,这种改善优于 CG 表面,并且与 Ra 的变化一致。
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来源期刊
Advances in Manufacturing
Advances in Manufacturing Materials Science-Polymers and Plastics
CiteScore
9.10
自引率
3.80%
发文量
274
期刊介绍: As an innovative, fundamental and scientific journal, Advances in Manufacturing aims to describe the latest regional and global research results and forefront developments in advanced manufacturing field. As such, it serves as an international platform for academic exchange between experts, scholars and researchers in this field. All articles in Advances in Manufacturing are peer reviewed. Respected scholars from the fields of advanced manufacturing fields will be invited to write some comments. We also encourage and give priority to research papers that have made major breakthroughs or innovations in the fundamental theory. The targeted fields include: manufacturing automation, mechatronics and robotics, precision manufacturing and control, micro-nano-manufacturing, green manufacturing, design in manufacturing, metallic and nonmetallic materials in manufacturing, metallurgical process, etc. The forms of articles include (but not limited to): academic articles, research reports, and general reviews.
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