Abstract:We set up a reflective nonlinear acoustic microscope to contour the quantitative adhesion at a bonded solid-solid interface by a contact acoustic nonlinearity (CAN) method. The principle of the reflective nonlinear acoustic microscope is described. After the vibration amplitude of the incident, focusing wave at the bonded interface is calculated, the standard adhesion with a complete bonding state is established by the tension test, the reflective CAN parameter is calibrated, and the quantitative contour of the adhesion at the interface can be obtained. The experimental contours of two samples are also presented. Compared with the transmitted microscope, the reflective one is more convenient and more suitable for practical applications.
. [J]. 中国物理快报, 2014, 31(09): 94301-094301.
CHEN Jian-Jun, ZHANG De, LIU Xiao-Zhou. A Reflective Nonlinear Acoustic Microscope to Contour the Quantitative Adhesion at a Bonded Solid-Solid Interface. Chin. Phys. Lett., 2014, 31(09): 94301-094301.
[1] Fassbender-Pangraz S and Arnold W 1995 Review of Progress in QNDE ed Thompson D O and Chimenti D E (New York: Plenum) vol 13B p 2001; vol 11B p 2069 [2] Han Q B, Qian M L and Wang H 2006 Ultrasonics44 Suppl. 1 e1323 [3] Mulaveesala R, Pal P and Tuli S 2006 Sensors Actuators A: Phys.128 209 [4] Olivier M, Rochat N, Chabli A, Lefeuvre G and Conne F 2001 Mater. Sci. Semiconductor Process.4 15 [5] Hosson J T M D and Kooi B J 2001 Handbook of Surfaces and Interfaces of Materials (London: Academic) p 1 [6] Akker S and Arman J 1997 Ultrasonics35 287 [7] Datta S K, Shah A H, Bratton R L and Chakraborty T 1988 J. Acoust. Sot. Am.83 2020 [8] Rothenfusser M, Mayr M and Baumann J 2000 Ultrasonics38 322 [9] Chen J, Jiang W and Shui Y 1999 Chin. J. Acoust.18 89 [10] Chen J J, Zhang D, Mao Y and Cheng J 2006 Ultrasonics44 Suppl. 1 p e1355 [11] Chen J, Zhang D, Mao Y and Cheng J 2009 Chin. Phys. Lett.26 014302 [12] Chen J, Zhang D, Mao Y and Cheng J 2011 Chin. Phys. Lett.28 084301 [13] Richardson J M 1979 Int. J. Engin. Sci.17 73 [14] Solodov I Y 1998 Ultrasonics36 383 [15] Solodov I, Pfleiderer K, Gerhard H, Predak S and Busse G 2006 NDT E Int.39 176 [16] Solodov I, Pfleiderer K, Gerhard H and Busse G 2004 Ultrasonics42 1011 [17] Du G H, Zhu Z M and Gong X F 1986 Foundation of Acoustics I (Shanghai: Shanghai Technology Press) p 195 [18] Lemons R F and Quate C F 1979 ``Acoustic Microscopy'' Chapter in Physical Acoustics: Principle and Mechods (New York: Academic) vol XIV p 1 [19] Wu W Q, Ni Y F, Qiu G and Zhang D 1998 IEEE Ultrason. Symp. (New York: IEEE) p 1175
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