[1] TIAN Jie, ZHOU Junying,WANG Hongyao, et al. Literature Review of Research on the Technology of Wire Rope Nondestructive Inspection in China and Abroad[C]//The 20152nd International Conference on Engineering Technology and Application. Xiamen,2015:366-371. [2] LEE J O, YOON W H, SON Y H, et al. Nondestructive Testing for Wire Rope[J]. Key Engineering Materials, 2004, 270/273:673-678. [3] ZHOU Ping, ZHOU Gongbo, ZHU Zhencai, et al. A Review of Non-destructive Damage Detection Methods for Steel Wire Ropes[J]. Applied Sciences, 2019, 9(13):2771. [4] WANG Hongyao, HUA Gang, TIAN Jie. Research on Detection Device for Broken Wires of Coal Mine-hoist Cable[J]. Journal of China University of Mining and Technology, 2007, 17(3):376-381. [5] WEISCHEDEL H R, RAMSEY R P. Electromagnetic Testing, a Reliable Method for the Inspection of Wire Ropes in Service[J]. NDT International, 1989, 22(3):155-161. [6] YAN Xiaolan, ZHANG Donglai, ZHAO Fei. Improve the Signal to Noise Ratio and Installation Convenience of the Inductive Coil for Wire Rope Nondestructive Testing[J]. NDT&E International, 2017, 92:221-227. [7] 于小杰,李旭东,解社娟,等.钢丝绳断丝缺陷涡流检测方法[J].中国机械工程, 2019, 30(22):2757-2763. YU Xiaojie, LI Xudong, XIE Shejuan, et al. ECT Method for Wire Breakage Defects in Wire Ropes[J].China Mechanical Engineering, 2019, 30(22):2757-2763. [8] LIU Shiwei, SUN Yanhua, MA Wenjia, et al. A New Signal Processing Method Based on Notch Filtering and Wavelet Denoising in Wire Rope Inspection[J]. Journal of Nondestructive Evaluation, 2019, 38:39. [9] SUN Yanhua, WU Jianbo, FENG Bo, et al. An Opening Electric-MFL Detector for the NDT of In-service Mine Hoist Wire[J]. IEEE Sensors Journal, 2014, 14(6):2042-2047. [10] ZHANG Donglai, ZHAO Min, ZHOU Zhihui, et al. Characterization of Wire Rope Defects with Gray Level Co-occurrence Matrix of Magnetic Flux Leakage Images[J]. Journal of Nondestructive Evaluation, 2013, 32(1):37-43. [11] JOMDECHA C, PRATEEPASEN A. Design of Modified Electromagnetic Main-flux for Steel Wire Rope Inspection[J]. NDT&E International, 2009, 42(1):77-83. [12] 康宜华,杨克冲,朱文凯,等.钢丝绳断丝断口漏磁场分析计算[J].中国机械工程, 1993, 4(4):1-3. KANG Yihua, YANG Kechong, ZHU Wenkai, et al. MFL Analysis and Calculation of Broken Wire in Steel Wire Ropes[J]. China Mechanical Engineering, 1993, 4(4):1-3. [13] WACKER E S, DENZLER J. Enhanced Anomaly Detection in Wire Ropes by Combining Structure and Appearance[J]. Pattern Recognition Letters, 2013, 34(8):942-953. [14] ZHOU Ping, ZHOU Gongbo, HE Zhenzhi, et al. ANovel Texture-based Damage Detection Method for Wire Ropes[J]. Measurement, 2019, 148:106954. [15] CHAKHLOV S, ANPILOGOV P, BATRANIN A, et al. Generation and Analysis of Wire Rope Digital Radiographic Images[C]//Ⅳ International Conference on Modern Technologies for Non-Destructive Testing. Tomsk, 2016:012008. [16] CAO Qingsong, LIU Dan, HE Yunlai, et al. Nondestructive and Quantitative Evaluation of Wire Rope Based on Radial Basis Function Neural Network Using Eddy Current Inspection[J]. NDT&E International, 2012, 46:7-13. [17] CACCIATORE V, CANOVA A, VALLAN A, et al. Experience and Technologies in NDT of Ropes[J]. Key Engineering Materials, 2007, 347:627-632. [18] ZHANG D L, CAO Y N, WANG C, et al. A New Method of Defects Identification for Wire Rope Based on Three-dimensional Magnetic Flux Leakage[J]. Journal of Physics Conference, 2006, 48(1):334-338. [19] WU Jianbo, ZHU Junzhen, TIAN Guiyun. Depth Quantification of Surface-breaking Cracks in Ferromagnetic Materials Using DC-biased Magnetization Based Induction Thermography[J]. Mechanical Systems and Signal Processing, 2020, 141:106719. [20] BEATE O T. Induction Thermography for Surface Crack Detection and Depth Determination[J]. Applied Sciences, 2018, 8(2):257. [21] XIA Hui, YAN Rong, WU Jianbo, et al. Visualization and Quantification of Broken Wires in Steel Wire Ropes Based on Induction Thermography[J]. IEEE Sensors Journal, 2021,21(17):18497-18503. [22] 胡剑虹,宁飞,沈湘衡,等.目标表面发射率对红外热像仪测温精度的影响[J].中国光学与应用光学, 2010, 3(2):152-156. HU Jianhong, NING Fei, SHEN Xiangheng, et al. Influence of Surface Emissivity of Objects on Measuring Accuracy of Infrared Thermal Imagers[J]. Chinese Journal of Optics and Applied Optics, 2010, 3(2):152-156. [23] 潘亚文.影响材料发射率因素的实验研究[D].新乡:河南师范大学, 2013. PAN Yawen. Experimental Investigation of Effect Material Emissivity Elements[D]. Xinxiang:Graduate School of Henan Normal University, 2013. [24] CARSLAW H S, JAEGER J C. Conduction of Heat in Solids[M]. Oxford:Oxford Science Publication, 1959. [25] 张洪济.热传导[M].北京:高等教育出版社,1992. ZHANG Hongji. Heat Conduction[M]. Beijing:Advanced Education Press, 1992. [26] XIA Hui, WU Jianbo, XU Zhaoyuan, et al. Defect Visualization and Depth Quantification in Scanning Induction Thermography[J]. IEEE Sensors Journal, 2021, 21(9):10437-10444. [27] 宋本初,左宪章.运动工件感应加热热成像缺陷检测研究[C]//2017远东无损检测新技术论坛.西安,2017:448-453. SONG Benchu, ZUO Xianzhang. Detection Mechanism of Parallel Defect Using Scanning Inductive Thermography[C]//Far East NDT Forum. Xi'an, 2017:448-453. |