基于小波能量系数的海洋平台管节点疲劳裂纹扩展AE信号识别
AE Signal Identification of Offshore Platform Tubular Joints Crack Propagation Based on Wavelet Energy Coefficient
摘 要
提出一种海洋平台管节点疲劳裂纹扩展状况识别方法,将小波分配尺度谱和小波能量系数应用于海洋结构件的典型疲劳裂纹扩展和断裂声发射信号的特征提取,提高了尺度图像的聚集性,排除了噪声干扰;通过海洋平台典型管节点模型断裂试验,运用PXWAE声发射检测仪对试件断裂全过程进行监测,成功提取到裂纹扩展和断裂过程中的声发射信号。结果表明,小波能量系数的变化与裂纹发展状态的变化呈现良好的一致性,能够准确、直观、清晰地表征出裂纹扩展不同阶段AE信号的特征,能够有效应用于海洋平台管节点疲劳损伤状态的在线实时监测和故障诊断。
裂纹扩展
声发射
小波分析
能量系数法
Offshore platform tubular joints
Crack propagation
AE
Wavelet analysis
Energy coefficient method
Abstract
An identification method of the offshore platform tubular joints fatigue crack propagation was proposed. Wavelet allocation scalogram and wavelet energy coefficient method were applied for the feature extraction of acoustic emission(AE) signal of marine structures typical fatigue crack propagation and fracture at the same time. The method could improve the aggregation of scalogram by excluding noise. By making the typical tubular joints model fracture experiments of the offshore platforms and using PXWAE AE detector to monitor the whole process of the specimen fracture, the paper successfully extracted the AE signals of crack propagation and fracture process. The analysis results demonstrated that the variation of wavelet energy coefficient and the change of crack propagation state were in a good consistency and could characterize the AE signals characteristics of different stages of crack propagation accurately, intuitively, and clearly. It could be used effectively in online real-time monitoring and fault diagnosis of offshore platform tubular joints fatigue crack.
中图分类号 TP391.9 TG115.28
所属栏目 科研成果与学术交流
基金项目 国家自然科学基金资助项目(51175485);山东省自然科学基金资助项目(ZR2009FM011)
收稿日期 2011/2/8
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备注刘贵杰(1968-),男,教授,硕士研究生导师,主要从事机械加工过程智能监控、海洋机电装备技术等方面研究。
引用该论文: LIU Gui-Jie,XU Meng,LI Si-Le,WU Nai-Long. AE Signal Identification of Offshore Platform Tubular Joints Crack Propagation Based on Wavelet Energy Coefficient[J]. Nondestructive Testing, 2013, 35(2): 1~7
刘贵杰,徐萌,李思乐,吴乃龙. 基于小波能量系数的海洋平台管节点疲劳裂纹扩展AE信号识别[J]. 无损检测, 2013, 35(2): 1~7
被引情况:
【1】朱艳,李曙生,曹元军, "基于振动模态的振动筛横梁裂纹损伤机理",无损检测 37, 56-59(2015)
【2】顾桂华,修吉平,刘琼,张伦, "泵头体材料的声发射信号特征",无损检测 37, 69-75(2015)
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参考文献
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【3】ROGERS L M, HANSEN J P, WEBBORN T J C. Christopher. Application of acoustic emission analysis to the integrity monitoring of offshore steel production platforms[J]. Materials Evaluation,1989,38(8):39- 49.
【4】ROBERTS T M, Talebzadeh M. Fatigue life prediction based on crack propagation and acoustic emission count rates[J]. Journal of Constructional Steel Research,2003,59:679-694.
【5】ROGERS LM, LEONARD M. Crack detection using acoustic emission methods-fundamentals and applications[J]. Key Engineering Materials,2005,293/294:33-46.
【6】林丽,赵德有.导管架海洋平台声发射信号识别系统[J].无损检测,2009,31(1):42-47.
【7】林丽,赵德有.局域波法在海洋平台结构声发射信号监测 中的应用[J].振动与冲击,2009,28(6):71-74.
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【9】董长虹.Matlab小波分析工具箱原理与应用[M].北京:国防工业出版社,2005.
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