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| MODEL TEST ON INFRARED RADIATION FEATURE OF TUNNEL SEEPAGE AND IMAGE PROCESSING |
| DOU Haitao1,2,HUANG Hongwei1,2,XUE Yadong1,2 |
(1. Department of Geotechnical Engineering,Tongji University,Shanghai 200092,China;2. Key Laboratory of Geotechnical
and Underground Engineering of Ministry of Education,Tongji University,Shanghai 200092,China) |
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Abstract To study the infrared radiation(IR) features of water seepage in tunnel,water seepage is simulated on an outdoor concrete wall model and IR is measured using an IR thermal imager. The image feature of water seepage is extracted from IR image with a program written in MATLAB. The general experimental results of water seepage show that:thermal image shows temperature field characteristics of high-temperature region surrounded by low-temperature region and a clear interface of water seepage and concrete basement with large temperature gradient. The experimental results of water seepage process show that:the larger water seepage flow is,the larger temperature difference between water seepage and concrete basement is,the more uniform temperature in water region is and the more intense temperature in the water seepage region edge is. The experimental results are useful for water seepage detection and forecasting on concrete projects(such as geotechnical engineering,tunnels,etc.). For IR image features of water seepage,the seepage area and other information are extracted from IR image with a program written in MATLAB. The results lay the foundation for software system development of tunnel water seepage detection on movement.
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Received: 07 September 2010
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| [1] RICHARDS J A. Inspection,maintenance and repair of tunnels:international lessons and practice[J]. Tunnelling and Underground Space Technology,1998,13(4):369–375.
[2] CLARK M R,MCCANN D M,FORDE M C. Application of infrared thermography to the non-destructive testing of concrete and masonry bridges[J]. NDT and E International,2003,36(4):265–275.
[3] VAVILOV V,DEMIN V. Infrared thermographic inspection of operating smokestacks[J]. Infrared Physics and Technology,2002,43(3/5):229–232.
[4] ASAKURA T,KOJIMA Y. Tunnel maintenance in Japan[J]. Tunnelling and Underground Space Technology,2003,18(2/3):161–169.
[5] 赵为民,赵 鸿,赵 鸣. 红外热像技术在检测建筑物渗漏中的应用[J]. 住宅科技,2004,(5):38–40.(ZHAO Weimin,ZHAO Hong,ZHAO Ming. Application of infrared thermal image technology to building leakage detection[J]. Housing Science,2004,(5):38–40.(in Chinese))
[6] 戴景民,汪子君. 红外热成像无损检测技术及其应用现状[J]. 自动化技术与应用,2007,26(1):1–7.(DAI Jingmin,WANG Zijun. Infrared thermography non-destructive testing technology and its applications[J]. Techniques of Automation and Application,2007,26(1):1–7.(in Chinese))
[7] 刘善军,张艳博,吴立新,等. 混凝土破裂与渗水过程的红外辐射特征[J]. 岩石力学与工程学报,2009,28(1):53–58.(LIU Shanjun,ZHANG Yanbo,WU Lixin,et al. Infrared radiation feature of concrete during fracturing and water seepage process[J]. Chinese Journal of Rock Mechanics and Engineering,2009,28(1):53–58.(in Chinese))
[8] 王炳健,刘上乾,周慧鑫,等. 基于平台直方图的红外图像自适应增强算法[J]. 光子学报,2005,34(2):299–301.(WANG Bingjian,LIU Shangqian,ZHOU Huixin,et al. Self-adaptive contrast enhancement algorithm for infrared images based on plateau histogram[J]. ACTA Photonica Sinica,2005,34(2):299–301.(in Chinese))
[9] 程玉宝,徐海萍. 基于小波重构和灰度分段的红外图像放大增强[J]. 红外技术,2008,30(10):567–570.(CHENG Yubao,XU Haiping. A new algorithm for infared image magnification and enhancement based on wavelet transform and gray-level section transforms[J]. Infared Technology,2008,30(10):567–570.(in Chinese))
[10] 郭 臻,陈远知. 图像阈值分割算法研究[J]. 中国传媒大学学报:自然科学版,2008,15(2):77–82.(GUO Zhen,CHEN Yuanzhi. Research of thresholding methods for image segmentation[J]. Journal of Communication University of China:Science and Technology,2008,15(2):77–82.(in Chinese))
[11] INAGAKI T,OKAMOTO Y. Diagnosis of the leakage point on a structure surface using infrared thermography in near ambient conditions[J]. NDT and E International,1997,30(3):135–142. |
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2011, Vol. 30 
