泡沫填充夹芯板中埋设空气实体的空气耦合 Lamb 波测试

Christoph Haugwitz;Andre Reinartz;Jan-Helge Dörsam;Sonja Wismath;Gianni Allevato;Jan Hinrichs;Paulina Gorol;Annalena Kühn;Thomas Hahn-Jose;Jörg Lange;Mario Kupnik
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引用次数: 0

摘要

夹芯板由两个钢面和一个硬质泡沫芯材组成,是建筑业中一种廉价而轻质的选择。然而,在生产过程中,泡沫夹芯中可能会形成空隙。本文利用超声波测试来检测夹芯板泡沫夹芯中埋藏在表面下几毫米处的空隙。测试装置采用了空气耦合和非接触式超声波测试。研究了不同频率对检测能力的影响。构建了两个空气耦合实验装置,一个频率为 40kHz,另一个频率为 200kHz。在夹芯板上雕刻不同深度的人造缺陷。实验结果与模拟结果进行了比较。我们发现,在这些夹芯板中检测埋藏的空隙是可行的。40 千赫设置的穿透深度较大,为 14 毫米,而 200 千赫设置的穿透深度较小,为 2.5 毫米。200 千赫设置显示出更好的对比度,即缺陷处的振幅增加了 27%,而 40 千赫设置仅增加了 6%。这些方法能够对夹芯板中的埋藏缺陷进行空气耦合、非接触超声波测试。它们有可能被集成到生产线中,有助于提高材料效率和这些夹芯板的质量控制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Air-Coupled Lamb Wave Testing of Buried Air-Voids in Foam-Filled Sandwich Panels
Sandwich panels, composed of two steel faces and a rigid foam core, are an inexpensive and lightweight option for construction industry. However, voids can form in the foam core during the manufacturing process. This paper uses ultrasonic testing to detect such voids in the foam core of sandwich panels, buried a few millimeters below the surface. The testing setup employs both air-coupled and non-contact ultrasonic testing. Different frequencies are investigated for their influence on the detection capabilities. Two air-coupled experimental setups are constructed, one at 40kHz and the other one at 200kHz. Artificial defects are carved into the sandwich panel at different depths. The results are compared to a simulation. We found that detecting buried voids in these sandwich panels is feasible. The 40-kHz setup has a larger penetration depth of 14mm, while the 200-kHz setup has a smaller penetration depth of 2.5mm. The 200-kHz setup shows a better contrast, i.e. the amplitude at the defect increases by 27% compared to 6% with the 40-kHz setup. These methods enable air-coupled, non-contact ultrasonic testing of buried defects in sandwich panels. They have the potential to be integrated into production lines, contributing to improved material efficiency and quality control for these sandwich panels.
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