Review on Acoustic Emission Detection for Concrete Damage
摘 要
在论述混凝土结构损伤声发射检测原理的基础上,围绕声发射参量与混凝土材料基本属性间的关系、混凝土结构损伤机理与声发射关系、混凝土结构损伤声发射定位等,混凝土结构损伤声发射检测技术研究过程中长期关注的几个核心问题展开讨论,归纳总结了混凝土结构损伤声发射检测技术的状况和进展,分析阐述了混凝土结构损伤声发射检测技术需加强的研究方向。
Abstract
The principle of implementing the AE detection for concrete damage is introduced. The emphasis is on remarking the current achievements and progresses on some key problems in the AE detection for concrete damage,namely the relationship between AE parameters and concrete material attributes,the relationship between concrete structural damage mechanism and AE,and the AE localization of concrete structural damage. The future development direction is stated.
中图分类号 TG115.28
所属栏目 综述
基金项目 江苏省杰出青年基金资助项目(BK2012036);高等学校博士学科点专项科研基金资助项目(20130094110010);国家自然科学基金资助项目(51179066,51139001,41323001);水利部公益性行业科研专项经费资助项目(201301061,201201038);新世纪优秀人才支持计划资助项目(NCET-10-0359)
收稿日期 2014/5/7
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备注苏怀智(1973-),男,教授,博士,主要从事水工结构工程安全监控与服役寿命评估理论和方法的研究与教学工作。
引用该论文: SU Huai-zhi,ZHANG Lin-hai,TONG Jian-jie. Review on Acoustic Emission Detection for Concrete Damage[J]. Nondestructive Testing, 2015, 37(1): 90~95
苏怀智,张林海,佟剑杰. 混凝土结构损伤声发射检测进展[J]. 无损检测, 2015, 37(1): 90~95
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参考文献
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【3】Colombo S,Forde M C. AE monitoring of concrete bridge beams in situ[J].The Structural Engineer,2003,81(2):41-46.
【4】CARPINTERI A,LACIDOGA G,PUGNO N. Structure damage diagnosis and life-time assessment by acoustic emission monitoring[J].Engineering Fracture Mechanics,2007,74(1/2):273-289.
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【6】MINEMURA O,ONUMA K,MARUYAMA T,et al. Application of acoustic emission to dam construction (Okumiomo Dam) [J].Engineering for Dams,1999,151:52-61.
【7】MINEMURA O,SAKATA N,YUYAMA S. Safety surveillance of an arch dam under construction during secondary cooling and grouting by acoustic emission[J].Proceedings of Japan Society of Civil Engineers,1999: 103-112.
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【11】GROSSE C U,FINCK F. Quantitative evaluation of fracture processes in concrete using signal-based acoustic emission techniques[J].Cement & Concrete Composites,2006,28(4):330-336.
【12】SAGAIDAK A I,ELIZAROV S V. Acoustic emission parameters correlated with fracture and deformation process of concrete members[J].Construction and Building Materials,2007,21(3):477-482.
【13】王立燕,王超,张亚梅,等. 运用声发射技术研究橡胶混凝土疲劳损伤过程[J].东南大学学报,2009,39(3):574-579.
【14】YOUNGGUK S,RICHARD K Y. Using acoustic emission to monitor fatigue damage and healing in asphalt concrete[J].KSCE Journal of Civil Engineering,2008,12(4):237-243.
【15】RECEP B,Al-SHAMMARI F M W,YAMAN I O,et al. Acoustic emission evaluation of concrete culverts[J].Research in Nondestructive Evaluation,2005,15(4):191-208.
【16】OHTSU M,UCHIDA M,OKAMOTO T,et al. Damage assessment of reinforced concrete beams qualified by acoustic emission[J].ACI Structural Journal,2002,99(4):411-417.
【17】TETSUYA S,MASAYASU O, MITSUHIRO S. Relative damage evaluation of concrete in a road bridge by AE rate-process analysis[J].Materials and Structures,2007,40(2):221-227.
【18】TETSUYA S,HIDEHIKO O,RYUICHI T,et al. Use of acoustic emission and X-ray computed tomography for damage evaluation of freeze-thawed concrete[J].Construction and Building Materials,2010,24(6):2347-2352.
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【20】SAGAR R V,PRASAD B K R. An experimental study on acoustic emission energy as a quantitative measure of size independent specific fracture energy of concrete beams[J].Construction and Building Materials,2011,25 (11):2349-2357.
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【22】MIHASHI H,NOMURA N,NIISEKI S. Influence of aggregate size on fracture process zone of concrete detected with three dimensional acoustic emission technique[J].Cement and Concrete Research,1991,21(5):737-744.
【23】陈兵,姚武,吴科如. 用声发射研究集料尺寸对混凝土受压力学性能的影响[J].无损检测,2001,23(5):194-197.
【24】陈兵,吕子义,周钟鸣. 水泥基复合材料微结构破坏声发射研究[J].无损检测,2004,26(4):184-187.
【25】BARBARA S,THOMAS V. Acoustic emission for monitoring a reinforced concrete beam subject to four-point-bending[J].Construction and Building Materials,2007,21: 483-490.
【26】FAMING Li,LI Zong-jin. Acoustic emission monitoring of fracture of fiber-reinforced concrete in tension[J].ACI Material Journal,2000,97(6):629-636.
【27】陈兵,张立新,刘娟育. 混凝土梁三点弯曲负荷下声发射特性研究[J].无损检测,2000,22(3):109-111.
【28】SU Huai-zhi,HU Jiang,TONG Jian-jie. Rate effect on mechanical properties of hydraulic concrete flexural-tensile specimens under low loading rates using acoustic emission technique[J].Ultrasonics,2012,52(7):890-904.
【29】SU H Z,TONG J J,HU Jiang,et al. Experimental study on AE behavior of hydraulic concrete under compression[J].Meccanica,2013,48(2):427-439.
【30】吴胜兴,张顺祥,沈德建. 混凝土轴心受拉声发射Kaiser效应试验研究[J].土木工程学报,2008,41(4):31-39.
【31】吴胜兴,王岩,沈德建. 混凝土及其组成材料轴拉损伤过程声发射特性试验研究[J].土木工程学报,2009,42(7):21-27.
【32】吴胜兴,王岩,李佳. 混凝土静态轴拉声发射试验相关参数研究[J].振动与冲击,2011,30(5):196-204.
【33】董毓利,谢和平,李玉寿. 砼受压全过程声发射特性及其损伤本构模型[J].力学与实践,1995,17(4):25-28.
【34】OHTSU M. Rate process analysis of acoustic emission activity in core test of concrete[J].JSCE,1992,20: 143-153.
【35】TAKESHI W,MOTOYASU H,KUNIHIRO Y. Quality evaluation of shotcrete by acoustic emission[J].Construction and Building Materials,2010,24(12):2358-2362.
【36】GOSZCYNSKA B,SWIT G,SKIN W T,et al. Experimental validation of concrete crack identification and location with acoustic emission method[J].Archives of Civil and Mechanical Engineering,2012,12(s1):23-28.
【37】CHEN B,LIU J Y. Experimental study on AE characteristics of three-point bending concrete beams[J].Cement Concrete Research,2004,34(4):391-397.
【38】王余刚,骆英,柳祖亭. 全波形声发射技术用于混凝土材料损伤监测研究[J].岩石力学与工程学报,2005,24(5):803-807.
【39】朱宏平,徐文胜,陈晓强. 利用声发射信号与速率过程理论对混凝土损伤进行定量评估[J].工程力学,2008,25(1):186-191.
【40】胡少伟,陆俊,范向前. 混凝土断裂试验中的声发射特性研究[J].水力发电学报,2011,30(6):16-19.
【41】HU Shao-wei,LU Jun,FAN Xiang-qian. Concrete damage constitutive relation based on characteristic parameters of acoustic emission[J].Applied Mechanics and Materials,2012,157/158:140-143.
【42】FAN Xiang-qian,HU Shao-wei. Influence of crack initiation length upon fracture parameter of high strength reinforced concrete[J].Applied Clay Science,2013,79(6):25-29.
【43】纪洪广,王基才,单晓云. 混凝土材料声发射过程分形特征及其在断裂分析中的应用[J].岩石力学与工程学报,2001,20(6):801-804.
【44】纪洪广,蔡美峰. 混凝土材料断裂过程中声发射空间自组织演化特征及其在结构失稳预报中的应用[J].土木工程学报,2001,34(5):15-19.
【45】KOPPEL S,GROSSE C U. Advanced acoustic emission techniques for failure analysis in concrete[C]//15th World Conference on Nondestructive Testing,2000: 15-21.
【46】GAUL L,HURLEBAUS S,JACOBS L. Localization of a synthetic acoustic emission source on the source of a fatigue specimen[J].Res Nondestructive Evaluation,2001,15 (1):105-107.
【47】BELOV V,GLUSHKO A,KOZYREV O. New AE source location method and its practical application[C].25th European Conference on Acoustic Emission Testing. Prague: Czech,2002: 45-49.
【48】GE M. Comparison of least squares and absolute value methods in AE/MS source location[J].International Journal of Rock Mechanics and Mining,1997,34(3):637-646.
【49】EDOUARD N. Problems of acoustic sources location in 3D medium[J].Journal of Thermoplastic Composite Materials,2005,18(4):351-362.
【50】CHRISTIAN U G,HANS W R,FLORIAN F. Signal-based acoustic emission techniques in civil engineering[J].Journal of Materials in Civil Engineering,2003,15(3):274-279.
【51】刘培洵,刘力强,黄元敏,等. 声发射定位的稳健算法[J].岩石力学与工程学报,2009,28(1):2760-2764.
【52】ROBERT S T M,TALEBZADEH M. Acoustic emission monitoring of fatigue crack propagation[J].Journal of Constructional Steel Research,2003,59(6):695-712.
【53】LUDEK C,VACLAV J. Signal source location by means of neural network[C].25th European Conference on Acoustic Emission Testing. Prague: Czech,2002: 99-106.
【54】ALMEIDA A H,ERIC V. Neural network detection of fatigue crack growth in riveted joints using acoustic emission[J].Materials Evaluation,1995,53(1):76-82.
【55】刘卫东,张薇,窦林名. 声发射定位中时差计算研究[J].计算机工程与科学,2009,31(4):127-129.
【56】SU H Z,OU B,TONG J J,et al. Wen Pattern recognition method for the source location of acoustic emission generated during the damage of hydraulic concrete[J].Strain,2012,48(6):482-490.
【57】王岩,吴胜兴,周继凯,等. 基于穷举法的三维声发射源定位算法[J].无损检测,2008,30(6):348-352.
【2】TOMOKI S. Evaluation of repair effect for deteriorated concrete piers of intake dam using AE activity[J].Advanced Materials Research,2006,(13/14):175-180.
【3】Colombo S,Forde M C. AE monitoring of concrete bridge beams in situ[J].The Structural Engineer,2003,81(2):41-46.
【4】CARPINTERI A,LACIDOGA G,PUGNO N. Structure damage diagnosis and life-time assessment by acoustic emission monitoring[J].Engineering Fracture Mechanics,2007,74(1/2):273-289.
【5】MINEMURA O,SAKATA N,YUYAMA S,et al. Acoustic emission evaluation of an arch dam during construction cooling and grouting[J].Construction and Building Materials,1998,12(6/7):385-392.
【6】MINEMURA O,ONUMA K,MARUYAMA T,et al. Application of acoustic emission to dam construction (Okumiomo Dam) [J].Engineering for Dams,1999,151:52-61.
【7】MINEMURA O,SAKATA N,YUYAMA S. Safety surveillance of an arch dam under construction during secondary cooling and grouting by acoustic emission[J].Proceedings of Japan Society of Civil Engineers,1999: 103-112.
【8】纪洪广,裴广文,单晓云. 混凝土材料声发射技术研究综述[J].应用声学,2002,21(4):1-5.
【9】吴政,杨成球. 声发射技术在混凝土中的应用综述[J].水电工程研究,1993 (1):61-66.
【10】王军. 钢筋混凝土井壁腐蚀损伤机理研究及应用[M].北京: 冶金工业出版社,2013.
【11】GROSSE C U,FINCK F. Quantitative evaluation of fracture processes in concrete using signal-based acoustic emission techniques[J].Cement & Concrete Composites,2006,28(4):330-336.
【12】SAGAIDAK A I,ELIZAROV S V. Acoustic emission parameters correlated with fracture and deformation process of concrete members[J].Construction and Building Materials,2007,21(3):477-482.
【13】王立燕,王超,张亚梅,等. 运用声发射技术研究橡胶混凝土疲劳损伤过程[J].东南大学学报,2009,39(3):574-579.
【14】YOUNGGUK S,RICHARD K Y. Using acoustic emission to monitor fatigue damage and healing in asphalt concrete[J].KSCE Journal of Civil Engineering,2008,12(4):237-243.
【15】RECEP B,Al-SHAMMARI F M W,YAMAN I O,et al. Acoustic emission evaluation of concrete culverts[J].Research in Nondestructive Evaluation,2005,15(4):191-208.
【16】OHTSU M,UCHIDA M,OKAMOTO T,et al. Damage assessment of reinforced concrete beams qualified by acoustic emission[J].ACI Structural Journal,2002,99(4):411-417.
【17】TETSUYA S,MASAYASU O, MITSUHIRO S. Relative damage evaluation of concrete in a road bridge by AE rate-process analysis[J].Materials and Structures,2007,40(2):221-227.
【18】TETSUYA S,HIDEHIKO O,RYUICHI T,et al. Use of acoustic emission and X-ray computed tomography for damage evaluation of freeze-thawed concrete[J].Construction and Building Materials,2010,24(6):2347-2352.
【19】李冬生,匡亚川,胡倩. 自愈合混凝土损伤演化声发射监测及其评价技术[J].大连理工大学学报,2012,52(5):701-706.
【20】SAGAR R V,PRASAD B K R. An experimental study on acoustic emission energy as a quantitative measure of size independent specific fracture energy of concrete beams[J].Construction and Building Materials,2011,25 (11):2349-2357.
【21】GANNE P,VERVOORT A,WEVESS M. Quantification of pre-break brittle damage correlation between acoustic emission and observed micro-fracture[J].International Journal of Rock Mechanics & Mining Sciences,2007,44(5):720-729.
【22】MIHASHI H,NOMURA N,NIISEKI S. Influence of aggregate size on fracture process zone of concrete detected with three dimensional acoustic emission technique[J].Cement and Concrete Research,1991,21(5):737-744.
【23】陈兵,姚武,吴科如. 用声发射研究集料尺寸对混凝土受压力学性能的影响[J].无损检测,2001,23(5):194-197.
【24】陈兵,吕子义,周钟鸣. 水泥基复合材料微结构破坏声发射研究[J].无损检测,2004,26(4):184-187.
【25】BARBARA S,THOMAS V. Acoustic emission for monitoring a reinforced concrete beam subject to four-point-bending[J].Construction and Building Materials,2007,21: 483-490.
【26】FAMING Li,LI Zong-jin. Acoustic emission monitoring of fracture of fiber-reinforced concrete in tension[J].ACI Material Journal,2000,97(6):629-636.
【27】陈兵,张立新,刘娟育. 混凝土梁三点弯曲负荷下声发射特性研究[J].无损检测,2000,22(3):109-111.
【28】SU Huai-zhi,HU Jiang,TONG Jian-jie. Rate effect on mechanical properties of hydraulic concrete flexural-tensile specimens under low loading rates using acoustic emission technique[J].Ultrasonics,2012,52(7):890-904.
【29】SU H Z,TONG J J,HU Jiang,et al. Experimental study on AE behavior of hydraulic concrete under compression[J].Meccanica,2013,48(2):427-439.
【30】吴胜兴,张顺祥,沈德建. 混凝土轴心受拉声发射Kaiser效应试验研究[J].土木工程学报,2008,41(4):31-39.
【31】吴胜兴,王岩,沈德建. 混凝土及其组成材料轴拉损伤过程声发射特性试验研究[J].土木工程学报,2009,42(7):21-27.
【32】吴胜兴,王岩,李佳. 混凝土静态轴拉声发射试验相关参数研究[J].振动与冲击,2011,30(5):196-204.
【33】董毓利,谢和平,李玉寿. 砼受压全过程声发射特性及其损伤本构模型[J].力学与实践,1995,17(4):25-28.
【34】OHTSU M. Rate process analysis of acoustic emission activity in core test of concrete[J].JSCE,1992,20: 143-153.
【35】TAKESHI W,MOTOYASU H,KUNIHIRO Y. Quality evaluation of shotcrete by acoustic emission[J].Construction and Building Materials,2010,24(12):2358-2362.
【36】GOSZCYNSKA B,SWIT G,SKIN W T,et al. Experimental validation of concrete crack identification and location with acoustic emission method[J].Archives of Civil and Mechanical Engineering,2012,12(s1):23-28.
【37】CHEN B,LIU J Y. Experimental study on AE characteristics of three-point bending concrete beams[J].Cement Concrete Research,2004,34(4):391-397.
【38】王余刚,骆英,柳祖亭. 全波形声发射技术用于混凝土材料损伤监测研究[J].岩石力学与工程学报,2005,24(5):803-807.
【39】朱宏平,徐文胜,陈晓强. 利用声发射信号与速率过程理论对混凝土损伤进行定量评估[J].工程力学,2008,25(1):186-191.
【40】胡少伟,陆俊,范向前. 混凝土断裂试验中的声发射特性研究[J].水力发电学报,2011,30(6):16-19.
【41】HU Shao-wei,LU Jun,FAN Xiang-qian. Concrete damage constitutive relation based on characteristic parameters of acoustic emission[J].Applied Mechanics and Materials,2012,157/158:140-143.
【42】FAN Xiang-qian,HU Shao-wei. Influence of crack initiation length upon fracture parameter of high strength reinforced concrete[J].Applied Clay Science,2013,79(6):25-29.
【43】纪洪广,王基才,单晓云. 混凝土材料声发射过程分形特征及其在断裂分析中的应用[J].岩石力学与工程学报,2001,20(6):801-804.
【44】纪洪广,蔡美峰. 混凝土材料断裂过程中声发射空间自组织演化特征及其在结构失稳预报中的应用[J].土木工程学报,2001,34(5):15-19.
【45】KOPPEL S,GROSSE C U. Advanced acoustic emission techniques for failure analysis in concrete[C]//15th World Conference on Nondestructive Testing,2000: 15-21.
【46】GAUL L,HURLEBAUS S,JACOBS L. Localization of a synthetic acoustic emission source on the source of a fatigue specimen[J].Res Nondestructive Evaluation,2001,15 (1):105-107.
【47】BELOV V,GLUSHKO A,KOZYREV O. New AE source location method and its practical application[C].25th European Conference on Acoustic Emission Testing. Prague: Czech,2002: 45-49.
【48】GE M. Comparison of least squares and absolute value methods in AE/MS source location[J].International Journal of Rock Mechanics and Mining,1997,34(3):637-646.
【49】EDOUARD N. Problems of acoustic sources location in 3D medium[J].Journal of Thermoplastic Composite Materials,2005,18(4):351-362.
【50】CHRISTIAN U G,HANS W R,FLORIAN F. Signal-based acoustic emission techniques in civil engineering[J].Journal of Materials in Civil Engineering,2003,15(3):274-279.
【51】刘培洵,刘力强,黄元敏,等. 声发射定位的稳健算法[J].岩石力学与工程学报,2009,28(1):2760-2764.
【52】ROBERT S T M,TALEBZADEH M. Acoustic emission monitoring of fatigue crack propagation[J].Journal of Constructional Steel Research,2003,59(6):695-712.
【53】LUDEK C,VACLAV J. Signal source location by means of neural network[C].25th European Conference on Acoustic Emission Testing. Prague: Czech,2002: 99-106.
【54】ALMEIDA A H,ERIC V. Neural network detection of fatigue crack growth in riveted joints using acoustic emission[J].Materials Evaluation,1995,53(1):76-82.
【55】刘卫东,张薇,窦林名. 声发射定位中时差计算研究[J].计算机工程与科学,2009,31(4):127-129.
【56】SU H Z,OU B,TONG J J,et al. Wen Pattern recognition method for the source location of acoustic emission generated during the damage of hydraulic concrete[J].Strain,2012,48(6):482-490.
【57】王岩,吴胜兴,周继凯,等. 基于穷举法的三维声发射源定位算法[J].无损检测,2008,30(6):348-352.
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