Abstract
The authors discuss a line-focus-beam (LFB) acoustic microscope as a system for evaluating local stresses in polymeric materials. The goal of this paper is to reveal the stress-dependence of the velocity of the leaky surface skimming-compressional wave (LSSCW), which is excited by the LFB acoustic microscope and propagates on the boundary of the water/specimen surface.
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References
Pasley, R.L., “Barkhausen Noise Effect”,Mat. Eval.,28,157–161 (1970).
Furuya, Y. andShimada, H., “Evaluation of Material Strength by Magnetic Barkhausen Noise Analysis”,Japan NDI,35 (8),532–537 (1986).
Fukuoka, H., “Stress Analysis by Acoust Elasticity”,Trans. JSME(A) 49 (440),403–412 (1983).
Remons, R.A., and Quate, C.F., “A Scanning Acoustic Microscope”, Proc. IEEE Ultrasonic Symposium, 18–21 (1973).
Kushibiki, J. andChubachi, N., “Material Characterization by Line-Focus-Beam Acoustic Microscope”,IEEE Trans. Sonics. Ultrason., SU, 32, 189–212 (1985).
Hayes, M. andRivlin, R.S., “Surface Wave in Deformed Elastic Materials”,Arch. Rat. Mech. Anal.,8,358 (1961).
Jassby, K. andKisoni, D., “Experimental Technique for Measurement of Stress-acoustic Coefficient of Rayleigh Wave”,Experimental Mechanics,23,74–80 (1983).
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Obata, M., Shimada, H. & Mihara, T. Stress dependence of leaky surface wave on PMMA by line-focus-beam acoustic microscope. Experimental Mechanics 30, 34–39 (1990). https://doi.org/10.1007/BF02322700
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DOI: https://doi.org/10.1007/BF02322700