Mengyuan Ma, Mingshun Jiang, Lei Zhang, Qingmei Sui, Lei Jia
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引用次数: 0
摘要
本文提出了一种基于信号相关性的双面检测方法,用于检测广泛使用的碳纤维增强塑料中的分层缺陷,该方法精度高、流程简便。该方法可以提高超声波检测的准确性,区分非缺陷信号和缺陷信号,尤其是振幅较小的信号,并通过图像呈现缺陷的深度和大小。我们结合同一位置超声检测两侧的回波信号,提取出微弱的缺陷信号,实现了对高超声衰减材料的检测。首先,对超声波原始信号进行经验模式分解滤波。然后,通过智能阈值识别缺陷回波,并与两侧超声波检测结果相结合。接着,计算缺陷深度和尺寸,绘制缺陷图像。最后,将超声相控阵设备获得的超声相控阵 C 扫描结果与本发明算法对人工分层碳纤维层压板的检测结果进行比较,结果表明,所提算法缺陷深度计算误差小于 4%,缺陷尺寸计算误差小于 0.5 毫米,在缺陷形状呈现和位置计算方面表现良好。
Optimization of Weak Ultrasonic Defect Signal Detection of Carbon Fiber Composites Based on Double-Sided Pulse Reflection Scanning
This paper presents a signal correlation–based two-sided detection method to detect delamination defects in widely used carbon fiber reinforced plastics with high accuracy and a convenient process. This method can improve the accuracy of ultrasonic testing and distinguish non-defective signals from defective signals, especially those with small amplitude, and to present the depth and size of defects by images. We combined the echo signals from both sides of ultrasonic detection at the same location to extract the weak defect signals and achieved the detection of materials with high ultrasonic attenuation. First, empirical mode decomposition filtering is performed on the ultrasonic raw signal. Then, the defect echoes are identified by smart thresholding and combined with the results of ultrasonic detection on both sides. Next, the defect depth and size are calculated, and the defect image is drawn. Finally, the ultrasonic phased array C-scan obtained by the ultrasonic phased array equipment was compared with the detection results of carbon fiber laminates with artificial delamination by the algorithm of the present invention, showing that the proposed algorithm defect depth calculation error is less than 4 %, the defect size calculation error is less than 0.5 mm, and it performs well in defect shape presentation and position calculation.
期刊介绍:
This journal is published in six issues per year. Some issues, in whole or in part, may be Special Issues focused on a topic of interest to our readers.
This flagship ASTM journal is a multi-disciplinary forum for the applied sciences and engineering. Published bimonthly, the Journal of Testing and Evaluation presents new technical information, derived from field and laboratory testing, on the performance, quantitative characterization, and evaluation of materials. Papers present new methods and data along with critical evaluations; report users'' experience with test methods and results of interlaboratory testing and analysis; and stimulate new ideas in the fields of testing and evaluation.
Major topic areas are fatigue and fracture, mechanical testing, and fire testing. Also publishes review articles, technical notes, research briefs and commentary.
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