Method of selective excitation of fashions of ultrasonic circular waves
Keywords:
ultrasonic circular wave, mode, selective excitation, ultrasonic transformerAbstract
Mathematical description and method of excitation of separate modes of the ultrasonic circumferential guided waves is presented in the wall of pipeline. For the selection of informing constituent from the group of modes offered approach with the use of array of ultrasonic transducers
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References
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8. H. Sato, M. Lebedev, and J. Akedo. Theoretical and Experimental Investigation of Propagation of Guide Waves in Cylindrical Pipe Filled with Fluid // Jpn. J. Appl. Phys. 45 (2006) p. 4573 – 4576.
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10. X. Zhao and J. L. Rose. Guided circumferential shear horizontal waves in an isotropic hollow cylinder // J. Acoust. Soc. Am. – V. 115, Issue 5, 2004. – P. 1912 – 1916.
11. M. Hirao and H. Ogi. An SH-wave EMAT technique for gas pipeline inspection // NDT&E Int. – V. 32, № 3, 1999. – P. 127 – 132.
12. Y. H. Kim, Sung-Jin Song, Joon-Soo Park, J. H. Jeon1, etc. Generation of the ultrasonic guided waves in a seamless stainless steel pipe using an array transducer // Review of QNE. – V. 24, 2005. – P. 211 – 218.
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14. Онлайн енциклопедія. http://en.wikipedia.org/wiki/Standing_wave.
2. D. C. Gazis. Excitation and propagation of non-axisymmetric guided waves in a hollow cylinder // J. Acoust. Soc. Am. – V. 109, Issue 2, 2001. – P. 457 – 464.
3. А. H. Fitch. Synthesis of Dispersive Delay Characteristics by Thickness Tapering in Ultrasonic Strip Delay Lines // J. Acoust. Soc. Am. – V. 35, Issue 5, 1962. – P. 709 – 71.
4. H. Nishino, S. Takashina, F. Uchida, M. Takemoto, and K. Ono. Modal Analysis of Hollow Cylindrical Guided Waves and Applications // Jpn. J. Appl. Phys. – 40, 2001. – P. 364 – 370.
5. M. Takemoto, K. Ono, and H. Nishino. Acoustic Emission – Beyond the Millennium. // Elsevier Science. – Amsterdam. 2000. – 244 р.
6. H. Nishino, K. Yoshida, H. Cho, and M. Takemoto. Propagation phenomena of wideband guided waves in a bended pipe // Ultrasonics. – V. 44, Supplement 1, 22 December 2006. – P. 1139 – 1143.
7. H. Nishino, M. Takemoto, and N. Chubachi. Estimating the diameterthickness of a pipe using the primary wave velocity of a hollow cylindrical guided wave // Appl. Phys. Lett. 85, (2004). – P. 1077 – 1079.
8. H. Sato, M. Lebedev, and J. Akedo. Theoretical and Experimental Investigation of Propagation of Guide Waves in Cylindrical Pipe Filled with Fluid // Jpn. J. Appl. Phys. 45 (2006) p. 4573 – 4576.
9. И. А. Викторов. Физические основы применения ультразвуковых волн Рэлея и Лэмба в технике. – М.: Наука. – 1966. – 168 с.
10. X. Zhao and J. L. Rose. Guided circumferential shear horizontal waves in an isotropic hollow cylinder // J. Acoust. Soc. Am. – V. 115, Issue 5, 2004. – P. 1912 – 1916.
11. M. Hirao and H. Ogi. An SH-wave EMAT technique for gas pipeline inspection // NDT&E Int. – V. 32, № 3, 1999. – P. 127 – 132.
12. Y. H. Kim, Sung-Jin Song, Joon-Soo Park, J. H. Jeon1, etc. Generation of the ultrasonic guided waves in a seamless stainless steel pipe using an array transducer // Review of QNE. – V. 24, 2005. – P. 211 – 218.
13. А. М. Прохоров. Физическая энциклопедия. – М.: «Большая Российская энциклопедия». – т. 4. – 1994. – 700 с.
14. Онлайн енциклопедія. http://en.wikipedia.org/wiki/Standing_wave.
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Published
2008-12-02
How to Cite
Лютак, І. З., & Кісіль, І. С. (2008). Method of selective excitation of fashions of ultrasonic circular waves. METHODS AND DEVICES OF QUALITY CONTROL, (2(21), 36–42. Retrieved from https://mpky.nung.edu.ua/index.php/mpky/article/view/140
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Section
METHODS AND EQUIPMENT OF NON-DESTRUCTIVE CONTROL
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