失效分析与预防
失效分析與預防
실효분석여예방
FAILURE ANALYSIS AND PREVENTION
2014年
5期
262-265
,共4页
脉冲涡流%主成分分析%K-means聚类%腐蚀%提离效应%多层铆接结构
脈遲渦流%主成分分析%K-means聚類%腐蝕%提離效應%多層鉚接結構
맥충와류%주성분분석%K-means취류%부식%제리효응%다층류접결구
pulsed eddy current%principal component analysis ( PCA)%K-means clustering%corrosion defects%lift-off effect%multi-layered riveted structure
在飞机多层铆接结构层间腐蚀缺陷的脉冲涡流检测中,需要识别提离效应造成的干扰信号和缺陷信号,同时也需要判断缺陷深度。制作了模拟飞机多层铆接金属结构的试样,对不同深度和大小的腐蚀缺陷进行了检测。采用主成分分析( Principal Component Analysis, PCA)方法对实验数据进行处理,并提取前3个主成分进行分析。结果表明:应用PCA方法,可以将纯提离信号与带层间腐蚀缺陷的信号显著区别开来,可以将不带提离时的纯腐蚀信号的深度识别出;将PCA提取的主成分应用K-means算法进行聚类,可以将纯提离信号与纯腐蚀信号和腐蚀提离混合信号区别开来。而对于带提离的腐蚀,试验发现其PCA分布与不同深度的纯腐蚀出现混淆,因而不能准确识别这两种信号。
在飛機多層鉚接結構層間腐蝕缺陷的脈遲渦流檢測中,需要識彆提離效應造成的榦擾信號和缺陷信號,同時也需要判斷缺陷深度。製作瞭模擬飛機多層鉚接金屬結構的試樣,對不同深度和大小的腐蝕缺陷進行瞭檢測。採用主成分分析( Principal Component Analysis, PCA)方法對實驗數據進行處理,併提取前3箇主成分進行分析。結果錶明:應用PCA方法,可以將純提離信號與帶層間腐蝕缺陷的信號顯著區彆開來,可以將不帶提離時的純腐蝕信號的深度識彆齣;將PCA提取的主成分應用K-means算法進行聚類,可以將純提離信號與純腐蝕信號和腐蝕提離混閤信號區彆開來。而對于帶提離的腐蝕,試驗髮現其PCA分佈與不同深度的純腐蝕齣現混淆,因而不能準確識彆這兩種信號。
재비궤다층류접결구층간부식결함적맥충와류검측중,수요식별제리효응조성적간우신호화결함신호,동시야수요판단결함심도。제작료모의비궤다층류접금속결구적시양,대불동심도화대소적부식결함진행료검측。채용주성분분석( Principal Component Analysis, PCA)방법대실험수거진행처리,병제취전3개주성분진행분석。결과표명:응용PCA방법,가이장순제리신호여대층간부식결함적신호현저구별개래,가이장불대제리시적순부식신호적심도식별출;장PCA제취적주성분응용K-means산법진행취류,가이장순제리신호여순부식신호화부식제리혼합신호구별개래。이대우대제리적부식,시험발현기PCA분포여불동심도적순부식출현혼효,인이불능준학식별저량충신호。
It’ s required to identify the defect signals from interfered signals caused by lift-off effect, and estimate the defect depth in aircraft multi-layered structure hidden corrosion detection with pulsed eddy current testing. A simulated sample of multi-layered riveted metal structure was made and different size and depth corrosion defects were tested. PCA was used and first three principal components were extracted. Results show that PCA method is able to distinguish pure lift-off signals against Signals with corrosion defects between the layers significantly. Pure lift-off signals were identified from pure corrosion signals and corrosion plus lift-off signals by applying K-means algorithm to the extracted principal components. But signals with both lift-off and corrosion components, can not be identified exactly from pure corrosions with PCA method.
