Abstract
This paper presents a nondestructive stress evaluation technique using the ultrasonic interference spectrum of leaky Lamb waves. By using a specific pitch-catch ultrasonic setup, the symmetric and antisymmetric modes of Lamb waves in a finite plate are decoupled, leading to simple relationships between the modal frequency spacing of two adjacent modes in the interference spectrum and the acoustic wave velocities that are functions of stress. As a result, the stress in the plate can be determined by measuring the modal frequency spacing instead of the relative flight times to calculate the acoustic wave velocity. Extensive experiments were carried out to verify the viability and robustness of the new technique using a simple testing system. It has been demonstrated that the new technique is about 25 times more accurate than existing flight-time approaches using the same testing system. The experimental results agree well with the results obtained by other ultrasonic methods using expensive equipment.
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References
Akhshik S, Moharrami R (2009) Improvement in accuracy of the measurements of residual stresses due to circumferential welds in thin-walled pipe using Rayleigh wave method. Nucl Eng Des 239(10):2201–2208
Benson RW, Raelson VJ (1959) Acoustoelasticity. Prod Eng 30:50–56
Vangi D (2001) Stress evaluation by pulse-echo ultrasonic longitudinal wave. Exp Mech 41(3):277–281
Egle DM, Bray DE (1976) Measurement of acoustoelastic and third-order elastic constants for rail steel. J Acoust Soc Am 60(3):741–744
Xu PC, Mal AK, Bar-Cohen Y (1990) Inversion of leaky lamb wave data to determine cohesive properties of bonds. Int J Eng Sci 28(4):331–346
Lowe MJS, Cawley P, Pavlakovic BN (2004) A general purpose computer model for calculating elastic waveguide properties with application to non-destructive testing. In: Surface Waves in Anisotropic and Laminated Bodies and Defects Detection. Kluwer Academic, The Netherlands, pp 241–256
Tang B, Henneke EG II (1989) Long wavelength approximation for lamb wave characterization of composite laminates. Res Nondestr Eval 1(1):51–64
Xu PC, Lindenschmidt KE, Meguid SA (1993) A new high frequency analysis of coatings using leaky lamb waves. J Acoust Soc Am 94(5):2954–2962
Hughes DS, Kelly JL (1953) Second-order elastic deformation of solids. Phys Rev 92(5):1145–1149
Ensminger D (1988) Ultrasonics: fundamentals, technology, applications, 2nd edn. Marcell Dekker, NY
Stobbe DM (2005) Acoustoelasticity in 7075-T651 aluminum and dependence of third order elastic constants on fatigue damage. MSc Thesis, School of Mechanical Engineering, Georgia Institute of Technology
Bar-Cohen Y, Lih SS (2000) Experimental enhancements of LLW dispersion data acquisition and implementation challenges to NDE of composites. Mater Eval 58(6):801–806
Leonhardt K (1972) Visibility, brightness and fringe shift at different ports of an interferometer. Optik 35(5):509–523
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Zhu, Z.H., Post, M.A. & Xu, P.C. Stress Evaluation Using Ultrasonic Interference Spectrum of Leaky Lamb Waves. Exp Mech 51, 971–980 (2011). https://doi.org/10.1007/s11340-010-9391-x
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DOI: https://doi.org/10.1007/s11340-010-9391-x