An integrated error compensation method based on on-machine measurement for thin web parts machining

• Published in: Precision engineering Vol. 63; pp. 206 - 213
• Main Authors: Ge, Guangyan, Du, Zhengchun, Feng, Xiaobing, Yang, Jianguo
• Format: Journal Article
• Language: English
• Published: Elsevier Inc 01.05.2020
• Subjects: Comprehensive machining error; Error compensation; On-machine measurement; Thin web parts; Thin web parts; Comprehensive machining error; Error compensation; On-machine measurement
• ISSN: 0141-6359; 1873-2372
• DOI: 10.1016/j.precisioneng.2020.03.002

Thin webs are widely used in the aerospace industry for the advantages of compact structure, light weight and high strength-to-weight ratio. Due to its low rigidity, serious machining error may occur, therefore, Finite Element method and mechanism analysis are usually utilized to modeling its deformation. However, they are very time-consuming and only suitable for elastic deformation error. In this study, an integrated error compensation method is proposed based on on-machine measurement (OMM) inspection and error compensation. The OMM inspection is firstly applied to measure the comprehensive machining errors. The Hampel filtering is then used to eliminate outliers, followed by the triangulation-based cubic interpolation as well as a machine learning algorithm which are used to establish the compensation model. At last, the real time compensation of high-density cutting points is realized by developing the compensation system based on External Machine Zero Point Shift (EMZPS) function of machine tool. Three sets of machining experiment of a typical thin web part are conducted to validate the feasibility and efficiency of the proposed method. Experiment results revealed that after compensation, the comprehensive machining errors were controlled under different machining conditions and 58.1%, 68.4% and 62.6% of the machining error ranges were decreased, respectively. This method demonstrates immense potential for further applications in efficiency and accuracy improvement of thin-walled surface parts. •A highly automatic compensation system for thin web parts machining based on OMM and real-time compensation is proposed.•The compensation can be conducted without modifying G code or NC parameters, which increases the compensation efficiency.•The elastic-plastic deformation of the thin web part is considered to improve the compensation accuracy.