Numerical investigation of the propagation characteristics of shear horizontal guided wave modes in coated pipes

2021 IEEE UFFC Latin America Ultrasonics Symposium (LAUS) Pub Date : 2021-10-04 DOI:10.1109/LAUS53676.2021.9639157

Christiano M. Nascimento, Lucas M. Martinho, A. Kubrusly

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Abstract

Shear horizontal (SH) guided waves are commonly used for non-destructive evaluation of plates and pipes. A coating layer is often applied to the outer surface of steel pipes to prevent external corrosion. Even with a considerably lower acoustic impedance, relative to steel, the presence of this layer can significantly alter the propagation characteristics of SH guided wave mode. Due to its viscoelastic properties, guided wave modes that propagate fairly in an equivalent bare pipe may become an unsuitable choice in a coated pipe. In this paper, we investigate which SH modes are more adequate for a circumferential inspection of a coated pipe of interest. The case study consists of a 323 mm outer diameter, 6.35 mm thick steel pipe coated with a 1.5 mm polyethylene layer, in which SH waves are generated either at the low- and high-frequency-thickness regime. A semi-analytical model was used to calculate the dispersion and attenuation curves and a finite element numerical model was further exploited to investigate the propagating modes. Results show that, in the analyzed case, at the high-frequency-thickness regime, the quasi-SH0 mode at 10 mm wavelength and the quasi-SH1 mode at 20 mm wavelength presented low attenuation of about 4 dB/m and 14 dB/m. However, at the low-frequency-thickness regime, the quasi-SHO mode at 20 mm wavelength presented a high attenuation, hindering and reflected echo from a defect to be detected, since it lies at a crossing point between the dispersion curves of a guided wave mode whose profile is mostly in the metal layer with a guided wave mode whose profile is concentrated in the coating layer. Therefore, operating at the usual low-thickness-frequency regime was completed prevented, making one move the higher-frequency-regime. A careful selection of the most suitable operating mode is paramount in order to inspect a defect with ultrasonic guided waves in pipes with coating.

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剪切水平导波模式在包覆管道中传播特性的数值研究

剪切水平(SH)导波通常用于板和管道的无损评估。通常在钢管的外表面涂一层涂层，以防止外部腐蚀。即使相对于钢具有相当低的声阻抗，该层的存在也可以显著改变SH导波模式的传播特性。由于其粘弹性特性，在等效裸管中传播良好的导波模式可能不适用于涂层管。在本文中，我们研究了哪种SH模式更适合于感兴趣的涂层管道的周向检查。该案例研究包括一根外径323毫米、厚6.35毫米、涂有1.5毫米聚乙烯层的钢管，其中SH波在低频和高频厚度范围内产生。采用半解析模型计算色散和衰减曲线，并进一步采用有限元数值模型研究传播模式。结果表明，在所分析的情况下，在高频-厚度范围内，10 mm波长处的准sh0模式和20 mm波长处的准sh1模式衰减较小，分别约为4 dB/m和14 dB/m。然而，在低频-厚度区，20 mm波长处的准sho模式由于位于轮廓主要位于金属层的导波模式和轮廓集中在涂层层的导波模式色散曲线的交叉点上，对待测缺陷的回波具有较高的衰减、阻挡和反射作用。因此，完成了在通常的低厚度频率区域的操作，使其移动到更高的频率区域。仔细选择最合适的操作模式是至关重要的，以便在有涂层的管道中使用超声波引导波检查缺陷。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 IEEE UFFC Latin America Ultrasonics Symposium (LAUS)

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