Topography prediction at boundaries between sub-regions in the 5-axis milling of Plexiglas based on dimension reduction method

IF 6.1 1区 工程技术 Q1 ENGINEERING, MANUFACTURING
Qiang Guo , Zonglin Liu , Yan Jiang , Yuwen Sun , Zi Yang , Wenbo Wang , Weisen Zhao , Cletus Okoye
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引用次数: 0

Abstract

Sub-regional milling has become an important machining method in the production of free-form surface parts. However, due to complex tool paths, irregular surface topography can occur at the region boundaries, which in turn affects the performance of the part such as the light transmission, optical distortion and mechanical strength of non-metallic transparent material etc. It is vital for manufacturers and researchers to study the forming mechanism of topography at boundaries and then to control it to get the high quality of the machined surface. Therefore, this paper thoroughly investigates the formation of surface topography at the boundary of sub-regions in the five-axis machining process. First, the boundaries of sub-regions are classified. Simultaneously, swept surfaces of the cutting edge, taking into account the process parameters and tool path, are constructed. Then, the surface topography is calculated using an improved model based on dimension reduction theory. Furthermore, through simulation and experiments, the predicted surface topographies agree well with the measured ones. Finally, some conclusions are listed and the method in this paper can provide a reliable basis for manufacturing high-quality parts.
基于尺寸缩减法的有机玻璃五轴铣削中子区域边界的形貌预测
次区域铣削已成为生产自由曲面零件的一种重要加工方法。然而,由于刀具路径复杂,区域边界会出现不规则的表面形貌,进而影响零件的性能,如非金属透明材料的透光率、光学畸变和机械强度等。对于制造商和研究人员来说,研究边界形貌的形成机理并加以控制以获得高质量的加工表面至关重要。因此,本文对五轴加工过程中子区域边界表面形貌的形成进行了深入研究。首先,对子区域的边界进行分类。同时,考虑到加工参数和刀具路径,构建切削刃的扫掠表面。然后,利用基于降维理论的改进模型计算表面形貌。此外,通过模拟和实验,预测的表面形貌与测量的表面形貌非常吻合。最后,列出了一些结论,本文中的方法可为制造高质量零件提供可靠的依据。
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
Journal of Manufacturing Processes
Journal of Manufacturing Processes ENGINEERING, MANUFACTURING-
CiteScore
10.20
自引率
11.30%
发文量
833
审稿时长
50 days
期刊介绍: The aim of the Journal of Manufacturing Processes (JMP) is to exchange current and future directions of manufacturing processes research, development and implementation, and to publish archival scholarly literature with a view to advancing state-of-the-art manufacturing processes and encouraging innovation for developing new and efficient processes. The journal will also publish from other research communities for rapid communication of innovative new concepts. Special-topic issues on emerging technologies and invited papers will also be published.
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