电子测量与仪器学报

张壮壮,王红军,王楠,王增新,王星河.基于自适应调频模态追踪方法的铣削颤振识别[J].电子测量与仪器学报,2023,37(5):180-188

基于自适应调频模态追踪方法的铣削颤振识别

Milling chatter identification based on adaptive chirp mode pursuit

DOI：

中文关键词: ACMP 颤振功率谱熵铣削

英文关键词:ACMP chatter power spectrum entropy milling

基金项目:北京市科技计划项目(Z201100008320004)资助

作者	单位
张壮壮	1. 北京信息科技大学机电工程学院
王红军	1. 北京信息科技大学机电工程学院，2. 高端装备制造智能感知与控制北京市国际科技合作基地，3. 北京信息科技大学机电系统测控北京市重点实验室
王楠	1. 北京信息科技大学机电工程学院
王增新	4. 超同步股份有限公司
王星河	5. 北京机械工业自动化研究所有限公司

Author	Institution
Zhang Zhuangzhuang	1. School of Mechanical and Electrical Engineering, Beijing Information Science & Technology University
Wang Hongjun	1. School of Mechanical and Electrical Engineering, Beijing Information Science & Technology University,2. Beijing High-End Equipment Intelligent Perception and Control International Cooperation Base,3. Beijing Key Laboratory of Measurement and Control of Mechanical and Electrical System, Beijing Information Science & Technology University
Wang Nan	1. School of Mechanical and Electrical Engineering, Beijing Information Science & Technology University
Wang Zengxin	4. CTB Co. , Ltd.
Wang Xinghe	5. Beijing Machinery IndustryAutomation Research Institute Co. , Ltd.

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中文摘要:

在铣削加工工程中,产生颤振,严重影响产品的加工精度和表面质量。为了有效避免铣削过程中发生颤振,提出了基于自适应调频模态追踪(adaptive chirp mode pursuit,ACMP)的铣削颤振监测和识别方法。该方法综合考虑了振动信号的带宽和微弱特性,ACMP 在递归框架中逐个捕获信号模式,在该算法中,不需要输入信号模式的个数,而是可以通过评估残差信号的能量来学习,这样就可以避免由于分解层数不确定带来的模态混叠或者过度分解的问题。首先使用仿真信号验证了该算法对颤振信号具有很高的识别精度;然后基于现场的铣削实验数据证明该方法及时有效地对颤振进行识别;最后从 ACMP 处理后的信号中提取功率谱熵值作为颤振识别特征。该方法解决了经验模态分解(empirical mode decomposition,EMD)算法的模态混合和伪分量问题,又降低了变分模态分解( variational mode decomposition,VMD)的精度不稳定的影响,可以准确快速地识别到颤振,对提高加工质量具有重要意义。

英文摘要:

In milling machining engineering, chattering is generated, which seriously affects the machining accuracy and surface quality of products. In order to effectively avoid chattering during milling, a milling chattering monitoring and identification method based on Adaptive chirp mode pursuit (ACMP) is proposed. The method integrates the bandwidth and faint characteristics of vibration signals, and ACMP captures the signal modes one by one in a recursive framework. In this algorithm, we do not need to input the number of signal modes, but can learn them by evaluating the energy of the residual signal, so that we can avoid the problems of modal mixing or over-decomposition due to the uncertainty of the number of decomposition layers. Firstly, the algorithm is verified to have high recognition accuracy for chattering signals using simulated signals; then the method is demonstrated to be effective in recognizing chattering in time based on field milling experimental data; finally, the power spectrum entropy value is extracted from the ACMP processed signals as chattering recognition features. This method solves the modal mixing and pseudo-component problems of empirical mode decomposition (EMD) algorithm, and reduces the influence of unstable accuracy of variational mode decomposition (VMD), which can accurately and quickly identify the chattering and is of great significance to improve the machining quality.

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