ISSN   1004-0595

CN  62-1224/O4

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机械磨损的磨粒检测技术进展

Progress of Measurement of Mechanical Wear With Wear Debris

  • 摘要: 机器零部件的磨损是机器失效故障的主要原因,由磨损引发机械故障带来巨大经济损失,有必要开展机械设备的磨损检测. 磨粒检测技术通过磨粒的形状与图像分析,可以认知磨损的机理与磨损过程,实现视情维修,并且实现对机械零部件剩余寿命的预测. 本文中拟从磨粒的检测原理与方法、统计分析、几何分析、图像分割、图像识别与处理、在线铁谱技术与磨粒智能分析,对机械磨损的磨粒检测技术进展进行评述. 铁谱仪的原理有直读式铁谱仪、分析式铁谱仪、旋转式铁谱仪和在线铁谱仪. 基于磨粒的检测原理有铁谱技术、基于霍尔效应的磨粒检测、激光网检测、微流控检测技术、径向磁感应的磨粒检测、静电检测磨粒的方法、超声波反射检测磨粒的方法和并行共振激励检测等. 本文中介绍了铁谱技术的统计分析、几何形态分析、分形分析、图像分割研究、基于图像的铁谱分析、在线铁谱分析和铁谱的人工智能分析进展;另一方面,提出了机械磨损的磨粒检测技术存在的问题与挑战,提出了今后需要研究的问题. 基于机器视觉,自动分析磨粒的大小、边缘形状和表面纹理,得到磨粒的特征参数,用群理论分析磨粒的统计参数,减少对试验分析人员经验的依赖,实现更快、更准确的磨粒特征分析. 基于分形几何理论表征磨粒的几何形态,得到磨粒的尺度不变量. 逆分形分析技术是从小尺度到大尺度,可以对磨粒的几何形态提供新的表征信息. 采用三维磨粒的全信息检测技术,可以提取磨粒的三维几何特征. 针对磨粒几何形态的分形计算,引入粗糙集理论,来提高磨粒图像分割的精度与速度. 新的磨粒产生速率是衡量磨损变化趋势的有效参数,可以预测机械零件的剩余寿命. 两种或者多种检测原理的融合与集成,可以提高监测磨损的准确性,为机器的磨损故障预测提供更高的可信性. 此外,集成不同研究者各自开发的磨粒智能检测分析方法,研制机器磨损故障监测的软件包,实现基于磨粒信息的机械磨损的故障诊断与机械零件剩余磨损寿命的预测.

     

    Abstract: The wear of mechanical parts and elements is the main reason of the failures of machines, and causes enormous economic loss as results of failures of mechanical wear. Thus, the operation conditions of equipment are monitored with respect to wear process and wear state. The wear mechanisms and the wear stages can be studied with the detection techniques in terms of wear debris, and the maintenance based on machine condition and the prediction of the remain service life of mechanical elements and parts can be achieved. The principles of wear debris detection, statistical analysis, morphological analysis, image segmentation and recognition and intelligent examine based on artificial intelligence were reviewed. The ferrography methods have direct reading ferrography, analytical ferrography, rotary ferrography and on-line ferrography. The principles of debris detection are classified as ferrography, Hall-effect, laser net fins, microfluidic detection, radial inductive sensor, electrostatic sensor, ultrasonic echo detection and detection method with parallel resonance structure. The state and the art of measurements using wear debris of above different principles were comparatively reviewed. On the other hand, the challenges and existed problems, which need studied further, of wear debris for detection of mechanical wear are proposed and presented. The automatic analysis of debris size, edge profile and surface texture based on machine vision would obtain its feature parameters. The statistical computation with group theory can avoid the dependence on experience of researchers, and achieve more efficient and accuracy analysis of debris features. The characterization of debris morphology with fractal theory can obtain their scale-invariant parameters, and the inverse fractal analysis from small scale to larger scale can provide new information for the debris morphology. The morphological feature extraction based on three dimensional view images for wear debris analysis can present full description of the wear debris. The introduction of the rough set theory to the fractal analysis debris morphology can improve the efficiency and accuracy of the segmentation of wear debris. The birth rate of new wear debris is an effective parameter to assess the wear stage and its tendency, with which remain service lives of mechanical elements can be predicted. The integration of different principal methods can improve the accuracy of wear monitoring, and provide more reliable prediction results for the wear failure of machines. Moreover, an exited problem and useful topic is the integration of the intelligent analysis methods presented by different researchers, and develop one software for the monitoring of wear failure of machines, which is a trend of monitoring method of mechanical wear. The final goals are the automatic failure diagnosis of mechanical wear based on the information of wear debris, and the prediction of remain service life of mechanical elements as results of mechanical wear.

     

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