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基于动力特性的木地板损伤检测()

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《西北林学院学报》[ISSN:1001-7461/CN:61-1202/S]

卷:: 第29卷
期数:: 2014年02期

页码:: 217-220

栏目:

出版日期:: 2014-03-30

文章信息/Info

Title:: Damage Detection of Simply Supported Beam Based on Dynamic Response

文章编号:: 1001-7461（2014）-02-0217-04

作者:: 张建中; （北京林业大学工学院 , 北京100083）

Author(s):: ZHANG Jian-zhong; (School of Technology, Beijing Forestry University, Beijing 100083, China)

关键词:: ; 木地板损伤; 损伤检测; 刚度影响系数

Keywords:: ; wood floor damage; damage detection; stiffness influence coefficients

分类号:: TB122

DOI:: doi:10.3969/j.issn.1001-7461.2014.02.39

文献标志码:: A

摘要:: 由于役木地板结构在使用过程中会发生局部开裂等损伤从而对木地板结构的安全产生不利影响,因此对木地板结构进行健康监测十分重要,而识别木地板的损伤位置与损伤程度则是结构监测的关键。为实现木地板结构损伤的定位与定量，将木地板结构简化成简支梁，从梁的受迫振动方程出发，利用振型叠加法计算损伤前后简支梁在简谐激励下的响应，以单元刚度的降低来模拟梁的局部损伤，通过引入损伤系数矩阵，利用结构损伤前后的固有频率和未损伤结构的振型数据计算刚度影响系数，进行损伤位置与损伤程度的判定，克服了频率作为全局量在损伤识别应用上的不足。数值模拟结果表明，该方法能够快速准确地识别出木地板结构的单一位置和多个位置的局部损伤，并且对模拟测量噪声不敏感，因此该方法为木地板结构损伤识别提供了一条可靠的途径。

Abstract:: Assume there are different damage positions and extents in wood floor structure, and put the wood floor structure as simply supported beam. Vibration model addition method was used for the forced vibration analysis of wood floor structures. Natural frequencies of structures before and after damage and vibration mode data of undamaged beam were used to calculate the stiffness influence coefficients which be used to detect the location and the level of the local damage(s). It is found that the local damage(s) can be identified successfully from the stiffness influence coefficients. These results have important significance in detecting and recognizing the structural damage of wood floor structures.

参考文献/References:

[1]邱增处, 李增超, 于瑛, 等. 大规格木地板在生产应用中的变形及分析[J]. 西北林学院学报, 2001,16(4):69-71.QIU Z C, LI Z C, YU Y, et al.Distortion of large-sized wood planking in production and application and its analysis[J]. Journal of Northwest Forestry University, 2001,16(4):69-71. (in Chinese)
[2]朱宏平，余璟，张俊兵. 结构损伤动力检测与健康监测研究现状与展望[J].工程力学，2011,28(2):1-11.ZHU H P, YU J, ZHANG J B. A summary review and advantages of vibration-based damage identiflcatopm wethods in structural health monitoring [J]. Engineering Mechanics, 2011,28(2):1-11. (in Chinese)
[3]徐伟华，刘济科，吕中荣. 基于振动响应的弦结构损伤检测[J]. 振动与冲击，2009，28(6)：29-31.XU W H, LIU J K, LV ZHONG R. Damage detection of string structure based on measured dynamic responses [J]. Journal of Vibration and Shock, 2009，28(6)：29-31. (in Chinese)
[4]朱晓冬,王逢瑚,曹军,等. 基于虚拟仪器的木材振动无损检测系统研究[J]. 西北林学院学报2010, 25(5): 182-186.ZHU X D, WANG F H, CAO J,et al.Nondestructive test system for wood vibration based on virtual instrument[J]. Journal of Northwest Forestry University, 2010, 25(5): 182-186. (in Chinese)
[5]张向东. 基于振动的损伤检测方法的理论和实验研究[D].太原: 太原理工大学, 2002. 
[6]宋雨，项贻强，徐兴. 基于结构振动的桥梁损伤识别[J].振动、测试与诊断，2005,25(3):222-226.SONG Y, XIANG Y Q, XU X. Mode sharp-based damage identification of bridges [J]. Journal of Vibration,Measurement &Diagnosis,2005,25(3):222-226. (in Chinese) 
[7]SOLTIS L A,WANG X, ROSS R J,et al.Vibration testing of timber floor system[J]. Forest Products Journal,2002,5(10):75. 
[8]HUNT M O, ROSS R J. Assessment of in-place wood floor systems[J]. Journal of Architectural Engineering, 2007(3):30-35.
[9]李书明, 何亮, 程关兵. 基于振动分析的结构损伤检测方法研究[J]. 中国民航学院学报, 2006, 24(5): 26-29.LI S M, HE L, CHENG G B. Research on methods of vibration-based structure damage detection [J]. Journal of Civil Aviation University of China, 2006, 24(5): 26-29. (in Chinese)
[10]郑栋梁, 李中付, 华宏星. 结构早期损伤识别技术的现状和发展趋势[J]. 振动与冲击, 2002, 21(2): 1-6.ZHENG D L, LI Z F, HUA H X. A simmary revoew of strictiral initial damage identificatopn methods [J]. Journal of Vibration and Shock, 2002, 21(2): 1-6. (in Chinese) 
[11]李学平，余志武. 一种基于频率的损伤识别新方法[J]. 工业建筑，2006,36(Supp.)：213-214.LI X P, YU Z W. A new method for damage identification based on frequency [J]. Industrial Construction, 2006,36(Supp.):213-214. (in Chinese)
[12]MORADALIZADEH M. Evaluation of crack defects in frames structures using resonant frequency techniques[D]. Newcastle: University of Newcastle Upon Tyne, 1990.
[13]DOEBLING S W,FARRAR C R,PRIME M B. A summary review of vibration-based damage identification methods[J]. The Shock and Vibration Digest, 1998, 30(2): 92-105.
[14]SALANE H J, BALDWIN J W. Identification of modal properties of bridges[J]. Journal of Structural Engineering, 1990: 2008-2021.
[15]SALAWU O S. Detection of structural damage through changes in frequency: a review[J]. Engineering Structures, 1997, 19(9): 718-723. 
[16]杨秋伟.基于振动的结构损伤识别方法研究进展[J].振动与冲击, 2007, 26(10):86-91.YANG Q W. A review of vibration-based structural damage identification methods[J]. Journal of Vibraion and Shock，2007,26(10):86-91. (in Chinese) 
[17]张义民. 机械振动[M]. 北京：清华大学出版社，2007.

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备注/Memo

备注/Memo:: 收稿日期：2013-07-09 修回日期：2013-10-25
作者简介：张建中，男，实验师，研究方向：林业机械。E-mail：zhangjian01@bjfu.edu.cn

《西北林学院学报》[ISSN:1001-7461/CN:61-1202/S]

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