Effect of coupling misalignment fault on vibration response and machined surface topography in ultra-precision lathe turning
In machining process of the ultra-precision turning lathe, the vibration of the spindle is closely related to the machining quality. Coupling misalignment is one of the most common faults that lead to vibration problems of the spindle. Most of the studies on the misalignment of coupling focus on the...
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| Published in | International journal of advanced manufacturing technology Vol. 120; no. 1-2; pp. 691 - 706 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Springer London
01.05.2022
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
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| Abstract | In machining process of the ultra-precision turning lathe, the vibration of the spindle is closely related to the machining quality. Coupling misalignment is one of the most common faults that lead to vibration problems of the spindle. Most of the studies on the misalignment of coupling focus on the vibration response in radial direction, and the axial motion of spindle is rarely studied. In this paper, the model of a machining system with misaligned coupling is established. Each part of the system has complete 6 degree-of-freedom (DOF) of motion, and system’s responses when idling and cutting are simulated. Furthermore, the machined surface topography is simulated according to the responses results. It is found that there are abundant low-order harmonics besides the operating frequency in the vibration of the spindle, both in the radial and axial direction. These harmonics in response will be reflected to the surface through the relative motion of the spindle and the cutting tool. The influence of spindle’s angular vibration on the surface is also especially noteworthy. Meanwhile, an experiment is carried out that the vibration of the spindle is detected by the capacitive displacement sensor, and the surface topography is directly measured by a laser interferometer. The experimental results verify this relationship between the vibration and the machined surface. This study is of considerable significance to deeply understand the influence of misalignment on rotor’s motion and machined surface. The research results also have value for spindle error diagnosis and machined surface prediction. |
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| AbstractList | In machining process of the ultra-precision turning lathe, the vibration of the spindle is closely related to the machining quality. Coupling misalignment is one of the most common faults that lead to vibration problems of the spindle. Most of the studies on the misalignment of coupling focus on the vibration response in radial direction, and the axial motion of spindle is rarely studied. In this paper, the model of a machining system with misaligned coupling is established. Each part of the system has complete 6 degree-of-freedom (DOF) of motion, and system’s responses when idling and cutting are simulated. Furthermore, the machined surface topography is simulated according to the responses results. It is found that there are abundant low-order harmonics besides the operating frequency in the vibration of the spindle, both in the radial and axial direction. These harmonics in response will be reflected to the surface through the relative motion of the spindle and the cutting tool. The influence of spindle’s angular vibration on the surface is also especially noteworthy. Meanwhile, an experiment is carried out that the vibration of the spindle is detected by the capacitive displacement sensor, and the surface topography is directly measured by a laser interferometer. The experimental results verify this relationship between the vibration and the machined surface. This study is of considerable significance to deeply understand the influence of misalignment on rotor’s motion and machined surface. The research results also have value for spindle error diagnosis and machined surface prediction. |
| Author | Ding, Yuanyuan Chang, Yu Chen, Yiheng Lu, Hanjing Rui, Xiaoting |
| Author_xml | – sequence: 1 givenname: Yiheng surname: Chen fullname: Chen, Yiheng organization: Institute of Launch Dynamics, Nanjing University of Science and Technology – sequence: 2 givenname: Xiaoting surname: Rui fullname: Rui, Xiaoting email: ruixt@163.net organization: Institute of Launch Dynamics, Nanjing University of Science and Technology – sequence: 3 givenname: Yuanyuan surname: Ding fullname: Ding, Yuanyuan organization: Institute of Launch Dynamics, Nanjing University of Science and Technology – sequence: 4 givenname: Yu surname: Chang fullname: Chang, Yu organization: School of Science, Nanjing University of Science and Technology – sequence: 5 givenname: Hanjing surname: Lu fullname: Lu, Hanjing organization: Institute of Launch Dynamics, Nanjing University of Science and Technology |
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| References | Chen, Bai, Chen, Wang, Zhang (CR17) 2019; 11 Lee, Lee (CR1) 1999; 224 Lees (CR6) 2007; 305 Xia, Pang, Yang, Zhao, Yang (CR3) 2019; 155 Zhuang, Ding, Chen, Chang, Zeng, Yang, Liu, Wei (CR22) 2019; 141 Tuckmantel, Castro, Cavalca (CR13) 2020; 142 Xu, Marangoni (CR2) 1994; 176 Li, Hong, Ma, Zhang (CR5) 2012; 45202 Didier, Sinou, Faverjon (CR7) 2012; 331 Fu, Yang, Lu, Gu (CR8) 2020; 16 Li, Chen, Hou, Zhang (CR14) 2016; 59 CR10 Chang, Ding, He, Shehzad, Ding, Lu, Zhuang, Chen, Zhang, Zhang, Chen (CR21) 2020; 158 Pennacchi, Vania, Chatterton (CR11) 2012; 30 Patel, Darpe (CR15) 2009; 325 Yang, Guan, Ye, Li, Y. l. Cao (CR19) 2015; 16 Jafari, Jamshidi (CR9) 2019; 11 Hujare, Karnik (CR16) 2018; 5 Wu, Sun, Chen, Chen (CR20) 2017; 116 Li, Zhang, Lin, Yi, Zhou (CR18) 2020; 11 Al-Hussain, Redmond (CR4) 2002; 249 da Silva Tuckmantel, Cavalca (CR12) 2019; 133 Q Wu (8151_CR20) 2017; 116 J Didier (8151_CR7) 2012; 331 F Tuckmantel (8151_CR13) 2020; 142 A Lees (8151_CR6) 2007; 305 F Chen (8151_CR17) 2019; 11 Y Chang (8151_CR21) 2020; 158 P Pennacchi (8151_CR11) 2012; 30 8151_CR10 Y Li (8151_CR18) 2020; 11 J Li (8151_CR5) 2012; 45202 C Fu (8151_CR8) 2020; 16 A Jafari (8151_CR9) 2019; 11 Y Lee (8151_CR1) 1999; 224 M Xu (8151_CR2) 1994; 176 DP Hujare (8151_CR16) 2018; 5 JX Yang (8151_CR19) 2015; 16 FW da Silva Tuckmantel (8151_CR12) 2019; 133 Y Xia (8151_CR3) 2019; 155 TH Patel (8151_CR15) 2009; 325 H Li (8151_CR14) 2016; 59 H Zhuang (8151_CR22) 2019; 141 K Al-Hussain (8151_CR4) 2002; 249 |
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| SubjectTerms | CAE) and Design Computer-Aided Engineering (CAD Coupling Cutting tools Degrees of freedom Engineering Harmonics Industrial and Production Engineering Lathes Machine tools Mechanical Engineering Media Management Misalignment Original Article Spindles Topography Turning (machining) Vibration response |
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| Title | Effect of coupling misalignment fault on vibration response and machined surface topography in ultra-precision lathe turning |
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