论文信息 - Nondestructive testing and crack evaluation of ferromagnetic material by using the linearly integrated hall sensor array

Nondestructive testing and crack evaluation of ferromagnetic material by using the linearly integrated hall sensor array

Magnetic flux leakage testing (MFLT), which measures the distribution of a magnetic field on a magnetized specimen by using a magnetic sensor such as a Hall sensor, is an effective nondestructive testing (NDT) method for detecting surface cracks on magnetized ferromagnetic materials. A scan-type magnetic camera, based on the principle of MFLT, uses an inclined Hall sensor array on a printed circuit board (PCB) to detect small cracks at high speed. However, the wave forms appear in a direction perpendicular to the scan because the sensors are bonded at different gradients and heights on the PCB despite careful soldering. In this paper, we propose linearly integrated Hall sensors (LIHaS) on a wafer to minimize these waves and to improve the probability of crack detection. A billet specimen is used to determine the effectiveness of the LIHaS in multiple crack detection.

[1] Jiseong Hwang,et al. Modeling of a scan type magnetic camera image using the improved dipole model , 2006 .

[2] Tetsuo Shoji,et al. Numerical Consideration of Magnetic Camera for Quantitative Nondestructive Evaluation , 2004 .

[3] Jiseong Hwang,et al. The Qnde Using Image Processing of the Magnetic Camera , 2006 .

[4] Jiseong Hwang,et al. THE DETECTION PROBABILITY IMPROVEMENT OF THE FAR-SIDE CRACK ON THE HIGH LIFT-OFF USING THE MAGNETIC CAMERA , 2006 .

[5] Jin Yi Lee,et al. A Study of Leakage Magnetic Flux Detector Using Hall Sensors Array , 2006 .

[6] Jae Kyoo Lim,et al. Detection Probability Improvement for Nondestructive Evaluation Using a Magnetic Camera , 2006 .