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基于声发射检测技术的滚动轴承缺陷检测 被引量:5

Bearing Fault Detection Based on Acoustic Emission Technique
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摘要 基于声发射技术对滚动轴承的典型缺陷进行了检测分析,并对其缺陷尺寸进行了测量。针对声发射信号的复杂性,提出了一种新的"时域+频域"的信号处理方法,利用短时绝对均值及自相关函数相结合的方法对声发射信号进行处理,可以简单而有效地提取出轴承的缺陷特征频率。结合具体试验,分析了滚动体进入缺陷区域时和离开缺陷区域时的信号特点,利用其时间差对轴承的缺陷尺寸进行了识别测量,结果证明了方法的有效性和可信性。 Acoustic Emission technology was used to diagnose the typical defect of rolling bearing and identify the size of fault.A new processing way of so-called time domain plus frequency domain was proposed for the complicated AE signals,which were processed by combining short-time absolute average and autocorrelation function to extract bearing characteristic frequency simply and effectively.In addition,through researching on the AE signal of bearing rollers in some particular experiments and analyzing the character of the rolling entry into and depart from the fault area,then the time difference between entry and depart can be calculated and the fault width of bearings can be identified.The experiment results prove the way of defect diagnosis and fault size identification is effective and believable.
作者 孙永生 李猛 刘恒 景敏卿 王凤涛
机构地区 西安交通大学机械工程学院
出处 《无损检测》 2015年第8期17-20,60,共5页 Nondestructive Testing
关键词 声发射 短时绝对均值 自相关 缺陷尺寸测量 Acoustic emission Short-time absolute average Autocorrelation Defect size measurement
分类号 TB553 [理学—声学] TG115.28 [金属学及工艺—物理冶金]
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参考文献8

  • 1GHAMD A L, AM, MBA D. A comparative experimental study on the use of acoustic emission and vibration analysis for bearing defect identification and estimation of defect size[J]. Mechanical Systems and Signal Processing, 2006, 20(7).. 1537-1571.
  • 2MATHEWS J R. Acoustic Emission[M]. New York.. Gordon and Breach Science Publishers Inc, 1983.
  • 3郝如江,卢文秀,褚福磊.声发射检测技术用于滚动轴承故障诊断的研究综述[J].振动与冲击,2008,27(3):75-79. 被引量:74
  • 4MBA D, RAJ B K. Development of acoustic emissiontechnology for condition monitoring and diagnosis of rotating machines: bearings, pumps, gearboxes, engines,and rotating structures [J]. The Shock and Vibration Digest, 2006, 38(1): 3-16.
  • 5BAKER J M. A new-time-domain analysis of human speech and other complex waveforms[D]. Pittsburgh: Carnegie-Mellon University, 1975.
  • 6ALLEN J B. Short-term spectral analysis and synthesis and modification by discrete fourier transform[J]. IEEE Trans. Acoust. Speech Signal Proc. ASSP, 1977, 25(3): 235-238.
  • 7SAWALHI N, RANDALL R B. Vibration response of spalled rolling element hearing : Observations, simulations and signal processing techniques to track the spall size [J]. Mechanical Systems and Signal Processing, 2011, 25(3).. 846-870.
  • 8MORHAIN A, MBANN D. Bearing defect diagnosis and acoustic emission [J]. Journal of Engineering Tribology,2003, 217(4) : 257-272.

二级参考文献30

  • 1李凤英,沈玉娣,熊军.滚动轴承故障的声发射检测技术[J].无损检测,2005,27(11):583-586. 被引量:13
  • 2钟秉林,黄仁.机械故障诊断学[M].北京:机械工业出版社,2007.119-131.
  • 3Yoshioka T, Korenaga A, Mano etal T. Diagnosis of rolling bearing by measuring time interval of acoustic emission generation[ J]. Journal of tribology. Transactions of ASME. 1999, 121 :468-472.
  • 4Yoshioka T , Fujiwara T. A new acoustic emission source locaring system for the study of rolling contact fatigue [ J]. Wear. 1982, 81 ( 1 ) : 183-186.
  • 5Yoshioka T, Fujiwara T. Application of acoustic emission technique to detection of rolling bearing failure[ J]. American society of mechanical engineers. 1984,14:55-76.
  • 6Takeo, Yoshioka. A detection of rolling contact subsurface fatigue cracks using acoustic emission technique[ J]. Lubrication engineering. 1993, 49(4) :303-308.
  • 7Kaewkongka T, Au Y H J. Application of acoustic emissioh to condition monitoring of rolling element bearings [ J ]. Measurement and control. 2001,34: 245-247.
  • 8Salvan S M E, Parkin. R M, Coy J, Li W. Intelligent condition monitoring of bearings in mail processing machines using acoustic emission. Proceedings of COMADEM 2001,2001: 67 -74.
  • 9Miettinen J, Andersson P. Methods to monitor the running situation of grease[J]. lubricated rolling bearings. Finland, 1989,92-101.
  • 10Schoess J N. Development and application of stress-wave acoustic diagnostics for roller bearings. Proceedings of the SPIE. 2000,3986:58-70.

共引文献73

同被引文献57

引证文献5

二级引证文献19

无损检测
2015年 第8期

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