在进行某型航空发动机模拟试验时,发现了一种鲜见报道的转子-轴承系统振动幅值长周期变化现象。为探究该现象的成因,利用某型航空发动机模拟试验器对该现象进行了长时间测试和验证,试验揭示了该现象受转速、滑油流量和温度、载荷、轴承状态和游隙等因素的影响规律。在大量试验后,分解了试验器和轴承,并更换新轴承进行了重复试验。试验结果表明,该轴承的振动幅值长周期变化现象是轴承游隙引起的热-构耦合现象。其机理是游隙较大的轻载轴承打滑发热,引发轴承游隙周期性变化,导致转子振动出现振荡现象,该研究称其为滚动轴承的游隙振荡现象。该现象对轴承的散热状态和径向载荷较为敏感,主要发生在轴承工作载荷远远低于轴承额定载荷的情况下,可以通过改变供油条件或适当增加不平衡载荷的方式消除该现象。
关键词:滚动轴承;游隙;轻载;打滑;游隙振荡
Abstract
A rarely recorded phenomenon of long-period vibration amplitude variation of rotor bearing system was founded on an aeroengine simulate rotor system. In order to analyze this phenomenon, the vibration displacement sensor and vibration speed sensor are used to carry out a long period test. The influence caused by speed, oil, temperature, load, bearing state and clearance was analyzed. After the experiments, the bearings were disassembled and replaced with new bearings for experiments. The experiment results showed that the long-period vibration amplitude variation of the bearing may be a thermal structural coupling phenomenon of the bearing. The source of the phenomenon is the periodic change of the bearing clearance caused by the sliding and heating of the light load bearing. The clearance oscillation phenomenon is sensitive to the heat dissipation state and radial direction of the bearing. This phenomenon mainly occurs when the working load of the bearing is far lower than the rated load of the bearing. This phenomenon can be eliminated by changing the lubricate oil supply (damaging the heat dissipation balance) or appropriately increasing the unbalanced load.
Key words: rolling element bearings; clearance; light-load; bearing skidding; clearance oscillation
关键词
滚动轴承 /
游隙 /
轻载 /
打滑 /
游隙振荡
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Key words
rolling element bearings /
clearance /
light-load /
bearing skidding /
clearance oscillation
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参考文献
[1] 赵静, 周娇君. 某型航空发动机双列角接触球轴承失效机理分析[C]//全国第八届航空航天装备失效分析研讨会论文集. 北京:兵器工业出版社,2016.
[2] 曹宏瑞, 何正嘉, 訾艳阳. 高速滚动轴承力学特性建模与损伤机理分析[J]. 振动与冲击, 2012, 31(19):135-140.
CAO Hongrui, HE Zhengjia, ZI Yanyang. Modeling of a high-speed rolling bearing and its damage mechanism analysis [J]. Journal of Vibration and Shock, 2012, 31(19):135-140.
[3] 郑林庆, 朱东. 高速滚子轴承的打滑分析[J]. 润滑与密封, 1982(4):3-8.
ZHENG Linqing, ZHU Dong. Slip analysis of high sped roller bearing [J]. Lubrication Engineering, 1982(4):3-8.
[4] 韩静文, 王文中, 赵自强. 高速圆柱滚子轴承打滑分析[J]. 轴承, 2020(4):9-14.
HAN Jingwen, WANG Wenzhong, ZHAO Ziqiang. Slip analysis of high speed cylindrical roller bearings [J]. Bearing, 2020(4):9-14.
[5] 李峰, 邓四二, 张文虎. 频繁摆动工况下球轴承打滑特性研究[J]. 机械工程学报, 2021, 57(1):168-178.
LI Feng, DENG Sier, ZHANG Wenhu. Skidding characteristics of ball bearings withstanding a frequent oscillating condition [J]. Journal of Mechanical Engineering, 2021, 57(1):168-178.
[6] 郑向凯, 邓四二, 郑艳伟,等. 某鼠笼弹支一体化球轴承保持架打滑率分析[J]. 轴承, 2020(4): 1-5.
ZHENG Xiangkai, DENG Sier, ZHENG Yanwei, et al. Analysis on slip rate of cages in ball bearings integrated with squirrel cage elastic support [J]. Bearing, 2020(4):1-5.
[7] 韩勤锴, 李兴林, 闫国斌,等. 变载偏斜圆柱滚子轴承打滑动力学分析[J]. 机械工程学报, 2017, 53(9):58-65.
HAN Qinkai, LI Xinglin, YAN Guobin, et al. Dynamic skidding behavior of skew cylindrical roller bearings under time-variable loads [J]. Journal of Mechanical Engineering, 2017, 53(9):58-65.
[8] 卢黎明, 谷开, 唐俊涛, 等. 考虑疲劳故障的圆柱滚子轴承打滑失效分析[J]. 润滑与密封, 2019, 44(11):124-129.
LU Liming, GU Kai, TANG Juntao, et-al. Skidding analysis of cylindrical roller bearing considering fatigue failure [J]. Lubrication, 2019, 44(11):124-129.
[9] EHRICH F F . Observations of nonlinear phenomena in rotordynamics[J]. Journal of System Design and Dynamics, 2008, 2(3):641-651.
[10] ZHANG W G . High speed spindle heat sources, thermal analysis and bearing protection[D]. Gainesville :University of Florida,1993.
[11] 束坤. 高速轻载航空轴承打滑监测技术研究[D]. 哈尔滨:哈尔滨工业大学, 2015.
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