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Minimum surface roughness using rule-based modeling of the vibratory finishing process in a high-frequency bowl system
Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture ( IF 1.9 ) Pub Date : 2020-04-13 , DOI: 10.1177/0954405420911282
Ben Jin Wong 1 , Ketav Majumdar 2 , Kunal Ahluwalia 2 , Swee-Hock Yeo 1
Affiliation  

Previous work on vibratory finishing has led to a better understanding and establishment of the mass finishing processes. Despite the sustained efforts made to date, vibratory finishing remains a field where the findings made have been based largely on empirical evidence. Through force sensor analyses and scanning electron microscopy imaging, in this work a successful attempt has been made in uncovering the underlying science—through first principles of Newtonian physics—behind vibratory finishing, providing explanations for the observations made. Trials were carried out in a high-frequency vibratory bowl, the first of its kind in the vibratory finishing industry. Through these trials, mathematical formulations have been derived, essentially providing a reliable way for the industry to estimate the process cycle time.

中文翻译:

使用基于规则的高频碗系统振动精加工过程建模的最小表面粗糙度

先前关于振动精加工的工作使人们更好地了解和建立了批量精加工工艺。尽管迄今为止做出了持续的努力,但振动精加工仍然是一个主要基于经验证据的领域。通过力传感器分析和扫描电子显微镜成像,在这项工作中,通过牛顿物理学的基本原理,成功地揭示了振动精加工背后的基础科学,为所进行的观察提供了解释。试验是在高频振动碗中进行的,这在振动精加工行业尚属首次。通过这些试验,已经推导出数学公式,基本上为行业提供了一种可靠的方法来估计过程周期时间。
更新日期:2020-04-13
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