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特征值摄动法在利用动响应结构小损伤检测中的应用 被引量:2

Eigenvalue Perturbation Theory with Applications to Small Structural Damage Detection
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摘要 目前在使用遗传算法或神经网络方法进行结构动力学损伤检测,需要基于少量的在线测量损伤结构数据和大量的数值仿真数据来实现,其中通过有限元方法来获得仿真数据的巨大计算量是动力学结构损伤检测方法发展中所面临的一个重要问题。本文在建模方面应用近年来提出的调整单元刚度模拟损伤的先进方法,以保证在损伤前后结构自由度数目不变;在此基础上应用特征值摄动法来减少损伤检测中计算量,并通过对复合材料层合板响应信号的小波分析验证了使用一阶矩阵摄动在有效降低计算量的同时,可以获得对损伤检测而言足够准确的响应信号。 Current methods for structural damage identification,such as GA algorithms and neural networks technology,are implemented often based on a few measured data and large numbers of simulation data.The tremendous time-consuming computational work for calculating the response data to establish the dynamic model of damaged structure is an important issue.Adopting the advanced modeling method of element stiffness matrix modification,the order of the structure stiffness matrix can be kept invariable in establishing the model of intact and damaged structures,and the eigenvalue perturbation theory is introduced to obtain the eigenvalues and eigenvectors of the damaged structure for reducing the computation load.The response signal of composite laminated plate by the wavelet transform,shows that the first order eigenvalue perturbation theory provides enough accurate dynamic response for detecting small structural damage while the computational tack is greatly reduced.
作者 余龙 姜节胜 闫云聚 刘芹
机构地区 西北工业大学
出处 《应用力学学报》 EI CAS CSCD 北大核心 2006年第2期255-258,共4页 Chinese Journal of Applied Mechanics
基金 国家自然科学基金(50375123)
关键词 特征值摄动理论 动力学损伤检测 有限元模型 eigenvalue perturbation theory,dynamic damage detection,finite elament mlodel.
分类号 TB122 [理学—工程力学]
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参考文献9

  • 1Duke J C. Structural health monitoring: Before and after crack birth[J]. Materials Evaluation, 2004, 62 (1): 53-55.
  • 2Hera A, Hou Z K. Application of wavelet approach for ASCE structural health monitoring benchmark studies[J]. Journal of Engineering Mechanics ASCE, 2004, 130 (1):96-104.
  • 3Kaazem Moslem, Ramin Nafaspour. Structural Damage Detection by Genetic Algorlthms[J]. AIAA Journal, 2002, 40(7):1395-1401.
  • 4何永勇,褚福磊,郭丹,钟秉林.基于遗传算法的旋转机械转子裂纹识别的研究[J].机械工程学报,2001,37(10):69-74. 被引量:14
  • 5Kao C Y, Hung S L. Detection of structural damage via free vibration responses generated by approximating artificial neural networks[J]. Computers & Structures, 2003, 81 (28-29):2631-2644.
  • 6闫云聚,韩莉,余龙,姜节胜.改进的小损伤结构动力学有限元建模方法[J].应用力学学报,2005,22(3):431-434. 被引量:4
  • 7Talreja R. Damage Mechanics of Composite Materials. Composite Materials Series 9[M]. Amsterdam:Elsevier, 1994.
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二级参考文献15

  • 1Duke J C. Structural health monitoring: Before and after crack birth[J]. Materials Evaluation, 2004, 62 (1): 53~55
  • 2Hera A, Hou Z K. Application of wavelet approach for ASCE structural health monitoring benchmark studies[J]. Journal of Engineering Mechanics ASCE, 2004, 130 (1): 96~104
  • 3Pawar P M, Ganguli R. Genetic fuzzy system for damage detection in beams and helicopter rotor blades[J]. Computer Methods in Applied Mechanics and Engineering, 2003, 192 (16-18): 2031~2057
  • 4Yam L H, Yan Y J, Cheng L, et al. Identification of complex crack damage for honeycomb sandwich plate using wavelet analysis and neural networks[J]. Smart Materials & Structures, 2003, 12 (5): 661~671
  • 5Kao C Y, Hung S L. Detection of structural damage via free vibration responses generated by approximating artificial neural networks[J]. Computers & Structures, 2003, 81 (28-29): 2631~2644
  • 6Talreja R. Damage Mechanics of Composite Materials. In: Composite Materials Series 9[M]. Amsterdam: Elsevier, 1994
  • 7Kuo W S, Pon P J. Elastic module and damage evolution of three-axis woven fabric composites[J]. Journal of Materials Science 1997, 32 (20): 5445~5455
  • 8Sekhar A S, Mohanty A R. Crack detection and vibration characteristics of cracked shafts. J. Sound and Vibration,1992, 157 (2): 375~381
  • 9Gasch R. A survey of the dynamic behavior of a simplerotating shaft with a transverse crack. J. of sound and vibration,1993, 160 (2): 313332
  • 10Baumeister J. Stable solution of inverse problems. Freidr,Braunschweig, 1981

共引文献16

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二级引证文献1

应用力学学报
2006年 第2期

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