Experimental Investigation of Mode Conversions of the $\mathrm{T}(0,1)$ Mode Guided Wave Propagating in an Elbow Pipe
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概要
- 論文の詳細を見る
Mode conversions from the fundamental torsional guided wave mode, $\mathrm{T}(0,1)$, to the higher-order torsional modes, $\mathrm{T}(1,1)$, $\mathrm{T}(2,1)$, $\mathrm{T}(3,1)$, and $\mathrm{T}(4,1)$, at a welded elbow pipe were experimentally investigated in a wide frequency range from 30 to 80 kHz. One ring-shaped transducer system was used as the transmitter and another as the receiver. Both systems consist of eight circumferentially located piezoelectric transducer elements. A novel method for a preferential detection of the torsional modes was proposed on the basis of the circumferential wave structures of the modes, which was utilized for investigations of mode conversions. Dispersion relations of the converted modes in frequency ranges from 30 to 80 kHz were also experimentally investigated, which agreed very well with those of the theoretical calculations.
- 2011-04-25
著者
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Nishino Hideo
Institute Of Science And Technology The University Of Tokushima
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Yoshida Kenichi
Institute Of Science And Technology The University Of Tokushima
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Tanaka Toshiro
Institute of Technology and Science, The University of Tokushima, Tokushima 770-8506, Japan
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Katashima Saori
Institute of Technology and Science, The University of Tokushima, Tokushima 770-8506, Japan
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NISHINO Hideo
Institute of Engineering and Science, The University of Tokushima
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YOSHIDA Kenichi
Institute of Engineering and Science, The University of Tokushima
関連論文
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- Experimental Investigation of Mode Conversions of the $\mathrm{T}(0,1)$ Mode Guided Wave Propagating in an Elbow Pipe
- Precise measurement of pipe wall thickness in noncontact manner using a circumferential lamb wave generated and detected by a pair of air-coupled transducers (Special issue: Ultrasonic electronics)
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- Long-Range Testing of Welded Elbow Pipe Using the $\mathrm{T}(0,1)$ Mode Ultrasonic Guided Wave
- Tone-Burst Generation of Circumferential Guided Waves by a Bulk Shear Wave Sensor and Their Wide-Range Time–Frequency Analyses
- Highly Sensitive Detection of Defects in Piping Using Multireflecting Guided Wave Energy Trapping Method
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- Efficient Generation and Detection of a Guided Wave in a Pipe using Guided Wave Reflectors
- Defect Detection of a Pipe Using a Guided Wave Generated by an Efficient Transduction with a Reflector