Advanced search
Publication Cover
Nondestructive Testing and Evaluation Volume 29, 2014 - Issue 2
Submit an article Journal homepage
314
Views
18
CrossRef citations to date
0
Altmetric
Articles

Generalised local entropy analysis for crack detection in beam-like structures

Zhibo YangSchool of Mechanical Engineering, Xi'an Jiaotong University, Xi'an710049, P.R. China;The State Key Laboratory for Manufacturing Systems Engineering, Xi'anP.R. China
,
Xuefeng ChenSchool of Mechanical Engineering, Xi'an Jiaotong University, Xi'an710049, P.R. China;The State Key Laboratory for Manufacturing Systems Engineering, Xi'anP.R. ChinaCorrespondence[email protected]
,
Yongying JiangSchool of Mechanical Engineering, Xi'an Jiaotong University, Xi'an710049, P.R. China;The State Key Laboratory for Manufacturing Systems Engineering, Xi'anP.R. China
&
Zhengjia HeSchool of Mechanical Engineering, Xi'an Jiaotong University, Xi'an710049, P.R. China;The State Key Laboratory for Manufacturing Systems Engineering, Xi'anP.R. China
Pages 133-153 | Received 14 Jun 2013, Accepted 21 Oct 2013, Published online: 07 Apr 2014

REFERENCES

  • JianX, DixonS, QuirkK, GrattanKTV. Electromagnetic acoustic transducers for in-and out-of plane ultrasonic wave detection. Sensor Actuat A Phys. 2008;148(1):51–56.
  • JianX, DixonS. Enhancement of EMAT and eddy current using a ferrite back-plate. Sensor Actuat A Phys. 2007;136(1):132–136.
  • HillR, GengRS, CowkingA, MackersieJW. The effect of nickel hardness and grain size on acoustic and electromagnetic Barkhausen emission. NDT&E Int. 1991;24(4):179–186.
  • GengR. Modern acoustic emission technique and its application in aviation industry. Ultrasonics. 2006;44:e1025–e1029.
  • FanW, QiaoPZ. Vibration-based damage identification methods: a review and comparative study. Struct Health Monitor Int J. 2011;10(1):83–111.
  • XiangJW, LiangM. Multiple damage detection method for beams based on multi-scale elements using hermite cubic spline wavelet. Comput Model Eng Sci. 2011;73(3):267–298.
  • XiangJW, LiangM. Wavelet-based detection of beam cracks using modal shape and frequency measurements. Comput Aid Civil Infrastruct Eng. 2012;27(6):439–454.
  • MurigendrappaSM, MaitiSK, SrirangarajanHR. Frequency-based experimental and theoretical identification of multiple cracks in straight pipes filled with fluid. NDT&E Int. 2004;37(6):431–438.
  • NaniwadekarMR, NaikSS, MaitiSK. On prediction of crack in different orientations in pipe using frequency based approach. Mech Syst Signal Process. 2008;22(3):693–708.
  • ImregunM, VisserWJ, EwinsDJ. Finite element model updating using frequency response function data: I. Theory and initial investigation. Mech Syst Signal Process. 1995;9(2):187–202.
  • EwinsDJ, GleesonPT. A method for modal identification of lightly damped structures. J Sound Vib. 1982;84(1):57–79.
  • PandeyAK, BiswasM, SammanMM. Damage detection from changes in curvature mode shapes. J Sound Vib. 1991;145(2):321–332.
  • PandeyAK, BiswasM. Damage detection in structures using changes in flexibility. J Sound Vib. 1994;169(1):3–17.
  • PandeyAK, BiswasM. Experimental verification of flexibility difference method for locating damage in structures. J Sound Vib. 1995;184(2):311–328.
  • RatcliffeCP. Damage detection using a modified laplacian operator on mode shape data. J Sound Vib. 1997;204(3):505–517.
  • CaoMS, QiaoPZ. Novel Laplacian scheme and multiresolution modal curvatures for structural damage identification. Mech Syst Signal Process. 2009;23(4):1223–1242.
  • RahmatallaS, EunHC. A damage detection approach based on the distribution of constraint forces predicted from measured flexural strain. Smart Mater Struct. 2010;19(10)
  • HongJC, KimYY, LeeHC, LeeYW. Damage detection using the Lipschitz exponent estimated by the wavelet transform: applications to vibration modes of a beam. Int J Solids Struct. 2002;39(7):1803–1816.
  • ZhongSC, OyadijiSO. Crack detection in simply supported beams without baseline modal parameters by stationary wavelet transform. Mech Syst Signal Process. 2007;21(4):1853–1884.
  • ZhongS, OyadijiSO. Identification of cracks in beams with auxiliary mass spatial probing by stationary wavelet transform. J Vib Acoust Trans ASME. 2008;130(4)
  • ZhongSC, OyadijiSO. Detection of cracks in simply-supported beams by continuous wavelet transform of reconstructed modal data. Comput Struct. 2011;89(1-2):127–148.
  • LoutridisS, DoukaE, HadjileontiadisLJ, TrochidisA. A two-dimensional wavelet transform for detection of cracks in plates. Eng Struct. 2005;27(9):1327–1338.
  • KatuninA. Damage identification in composite plates using two-dimensional B-spline wavelets. Mech Syst Signal Process. 2011;25(8):3153–3167.
  • WangQ, DengXM. Damage detection with spatial wavelets. Int J Solids Struct. 1999;36(23):3443–3468.
  • QuekST, WangQ, ZhangL, AngK.K. Sensitivity analysis of crack detection in beams by wavelet technique. Int J Mech Sci. 2001;43(12):2899–2910.
  • FanW, QiaoPZ. A 2-D continuous wavelet transform of mode shape data for damage detection of plate structures. Int J Solids Struct. 2009;46(25-26):4379–4395.
  • XiangJ, LiangM. A two-step approach to multi-damage detection for plate structures. Eng Fract Mech. 2012;91(0):73–86.
  • XiangJW, MatsumotoT, WangY, JiangZ. A hybrid of interval wavelets and wavelet finite element model for damage detection in structures. Comput Model Eng Sci. 2011;81(3-4):269–294.
  • WangHQ, ChenP. Intelligent diagnosis method for a centrifugal pump using features of vibration signals. Neural Comput Appl. 2009;18(4):397–405.
  • WangYX, LiangM. Identification of multiple transient faults based on the adaptive spectral kurtosis method. J Sound Vib. 2012;331(2):470–486.
  • HadjileontiadisLJ, DoukaE, TrochidisA. Crack detection in beams using kurtosis. Comput Struct. 2005;83(12-13):909–919.
  • WangYX, LiangM. An adaptive SK technique and its application for fault detection of rolling element bearings. Mech Syst Signal Process. 2011;25(5):1750–1764.
  • HeQB, KongFR, YanRQ. Subspace-based gearbox condition monitoring by kernel principal component analysis. Mech Syst Signal Process. 2007;21(4):1755–1772.
  • HeQB, DuRX, KongFR. Phase space feature based on independent component analysis for machine health diagnosis. J Vib Acoust Trans ASME. 2012;134(2)
  • ChenP, TaniguchiM, ToyotaT, HeZ. Fault diagnosis method for machinery in unsteady operating condition by instantaneous power spectrum and genetic programming. Mech Syst Signal Process. 2005;19(1):175–194.
  • QiaoP, LuK, LestariW, WangJ. Curvature mode shape-based damage detection in composite laminated plates. Compos Struct. 2007;80(3):409–428.
  • XiangJW, LiangM. A two-step approach to multi-damage detection for plate structures. Eng Fract Mech. 2012;91:73–86.
  • HadjileontiadisLJ, DoukaE, TrochidisA. Fractal dimension analysis for crack identification in beam structures. Mech Syst Signal Process. 2005;19(3):659–674.
  • HadjileontiadisLJ, DoukaE. Crack detection in plates using fractal dimension. Eng Struct. 2007;29(7):1612–1625.
  • QiaoPZ, CaoMS. Waveform fractal dimension for mode shape-based damage identification of beam-type structures. Int J Solids Struct. 2008;45(22-23):5946–5961.
  • BaiRB, CaoM, SuZ, OstachowiczW, XuH. Fractal dimension analysis of higher-order mode shapes for damage identification of beam structures. Math Problems Eng. 2012.
  • YanRQ, GaoRX. Approximate Entropy as a diagnostic tool for machine health monitoring. Mech Syst Signal Process. 2007;21(2):824–839.
  • YanRQ, LiuYB, GaoRX. Permutation entropy: A nonlinear statistical measure for status characterization of rotary machines. Mech Syst Signal Process. 2012;29:474–484.
  • ShannonCE. The mathematical theory of communication (Reprinted). M D Comput. 1997;14(4):306–317.
  • NandwanaBP, MaitiSK. Detection of the location and size of a crack in stepped cantilever beams based on measurements of natural frequencies. J Sound Vib. 1997;203(3):435–446.
  • LeleSP, MaitiSK. Modelling of transverse vibration of short beams for crack detection and measurement of crack extension. J Sound Vib. 2002;257(3):559–583.
  • WuJ, LiQ. Structural parameter identification and damage detection for a steel structure using a two-stage finite element model updating method. J Constr Steel Res. 2006;62(3):231–239.
  • CaoM, YeL, ZhouL, SuZ, BaiR. Sensitivity of fundamental mode shape and static deflection for damage identification in cantilever beams. Mech Syst Signal Process. 2011;25(2):630–643.
  • QiaoP, CaoM. Waveform fractal dimension for mode shape-based damage identification of beam-type structures. Int J Solids Struct. 2008;45(22):5946–5961.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.