Department of Mechanical Convergence Engineering, Hanyang University, Seoul 04736, Korea.
Sensors (Basel). 2021 May 12;21(10):3371. doi: 10.3390/s21103371.
We present a noncontact, non-immersion ultrasonic inspection method. A broadband ultrasound signal generated by a pulsed laser was measured using a hydrophone. The generated ultrasound signals propagated through the specimen and received a signal from the hydrophone in the water. Soldered chip ceramic capacitors, resistors, and surface-mount-type chip amplifiers were used as experimental specimens. A polydimethylsiloxane layer was used to prevent the specimen from being impacted by contact with water. The presence of a crack in the middle of the specimen resulted in an air layer, and the intermediate air layer reduced the magnitude of the signal transmitted owing to impedance mismatch. Using this principle, the cracks in each specimen could be distinguished. The image contrast ratio derived from the proposed method is approximately two to three times higher than that derived using the conventional immersion ultrasonic method. These results show that the proposed method can replace existing immersion-type ultrasound transmitted images.
我们提出了一种非接触、非浸入式超声检测方法。采用水听器测量由脉冲激光产生的宽带超声信号。产生的超声波信号通过试样传播,并从水中的水听器接收信号。焊接芯片陶瓷电容器、电阻器和表面贴装型芯片放大器被用作实验样品。使用聚二甲基硅氧烷层防止样品因与水接触而受到影响。在试样中间存在裂纹会导致出现空气层,而中间的空气层会由于阻抗不匹配而降低信号的传输幅度。利用这一原理,可以区分每个试样中的裂纹。与传统的浸入式超声方法相比,从所提出的方法得出的图像对比度约高 2 到 3 倍。这些结果表明,所提出的方法可以替代现有的浸入式超声透射图像。