Towards G1-Continuous Multi-Strip Path-Planning for 5-Axis Flank CNC Machining of Free-Form Surfaces Using Conical Cutting Tools

IF 3 3区计算机科学 Q2 COMPUTER SCIENCE, SOFTWARE ENGINEERING Computer-Aided Design Pub Date : 2023-10-01 DOI:10.1016/j.cad.2023.103555

Kanika Rajain , Michal Bizzarri , Miroslav Lávička , Jiří Kosinka , Michael Bartoň

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Abstract

Existing flank milling path-planning methods typically lead to tiny gaps or overlaps between neighboring paths, which causes artifacts and imperfections in the workpiece. We propose a new multi-strip path-planning method for 5-axis flank milling of free-form surfaces which targets $G^{1}$ (tangent-plane) continuity of the neighboring strips along shared boundaries. While for some geometries one cannot achieve $G^{1}$ continuity and high approximation quality at the same time, our optimization framework offers a good trade-off between machining accuracy in terms of distance error and the $G^{1}$ connection of neighboring strips. We demonstrate our algorithm on synthetic free-form surfaces as well as on industrial benchmark datasets, showing that we are able to meet fine industrial tolerances and simultaneously significantly reduce the kink angle of adjacent strips, and consequently to improve the surface finish in terms of smoothness.

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面向G1连续多条路径规划的五轴平面数控加工自由曲面的锥形刀具

现有的侧面铣削路径规划方法通常会导致相邻路径之间的微小间隙或重叠，从而导致工件中的伪影和缺陷。我们提出了一种新的自由曲面五轴侧铣多条带路径规划方法，该方法的目标是相邻条带沿共享边界的G1（切平面）连续性。虽然对于某些几何形状，无法同时实现G1连续性和高近似质量，但我们的优化框架在距离误差方面的加工精度和相邻条带的G1连接之间提供了良好的折衷。我们在合成自由曲面和工业基准数据集上演示了我们的算法，表明我们能够满足精细的工业公差，同时显著降低相邻条带的扭结角，从而提高表面光洁度。

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来源期刊

Computer-Aided Design 工程技术-计算机：软件工程

CiteScore

5.50

自引率

4.70%

发文量

117

审稿时长

4.2 months

期刊介绍： Computer-Aided Design is a leading international journal that provides academia and industry with key papers on research and developments in the application of computers to design. Computer-Aided Design invites papers reporting new research, as well as novel or particularly significant applications, within a wide range of topics, spanning all stages of design process from concept creation to manufacture and beyond.