介绍超声扫描成像技术在罐壁测厚中的应用。测厚系统采用多通道探头、PCI总线超声波界面卡和网络数据传输技术。
The wall thickness measurement system by ultrasonic scan imaging technology was described, in which multi-channel probe, pulser-receiver PCI card and network were applied successfully.
因此,超声c扫描成像技术在工业无损检测方面有着良好的应用前景。
In a word, the image device of ultrasonic C-scanning has wild application in nondestructive testing of industrial production.
传统超声b扫描和C扫描成像方法不能满足复合材料的检测需求。
Conventional ultrasonic imaging methods such as B-scan and C-scan couldn't meet the requirements of composite inspection.
在B型超声机械扇形扫描成像当中,原始图像信号是以极坐标的形式输出的,对图像进行实时坐标变换和漏点插补是图像预处理所要解决的主要问题。
In the B-mode sector scan ultrasonic imaging system, the raw image is in polar coordinates, therefore, it is main tasks of image pre-processing to achieve image coordinate transform and interpolation.
在B型超声机械扇形扫描成像当中,原始图像信号是以极坐标的形式输出的,对图像进行实时坐标变换和漏点插补是图像预处理所要解决的主要问题。
In the B-mode sector scan ultrasonic imaging system, the raw image is in polar coordinates, therefore, it is main tasks of image pre-processing to achieve image coordinate transform and interpolation.
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