超声波探伤信息数据处理的主要任务是根据采集的数据计算出缺陷的大小及位置。缺陷的大小由采集的缺陷数据与标准缺陷波数据的比较得出。标准缺陷的数据是通过对标准试块测试取得采样值，再经插值计算求得。通过计算超声波在工件中的传播时间求得缺陷的定位参数，而超声波在工件中的传播时间可由存放采集数据的内存单元的地址变换得出。超声波探伤信息的数据处理，实现信息的采集数据的智能化处理，有效地解决检测现场对缺陷的判定和缺陷的精确定位问题。 The main task of ultrasonic flaw detection information data processing is based on the collected data to calculate the size and location of defects. The size of the defect is derived from the comparison of the acquired defect data with the standard defect wave data. Standard defect data is obtained by sampling the standard test block, and then calculated by interpolation. By calculating the ultrasonic propagation time in the workpiece to determine the location of the defect parameters, and ultrasonic propagation time in the workpiece can be collected from the memory cell address data derived. Ultrasonic flaw detection information processing data to achieve intelligent collection of information processing data to effectively address the detection of defects at the scene to determine the exact location and defects.