摘要
为了对较厚钢板进行缺陷检测,采用对低压大功率的电源进行斩波的方式产生大电流脉冲,设计圆柱形探头,采用激励线圈缓慢放电的方式检测钢板表面缺陷;设计矩形探头,采用激励线圈瞬间放电的方式检测钢板亚表面;对脉冲涡流瞬态感应电压信号进行小波滤噪和幅值归一化处理。实验结果表明,小波滤噪可以提高检测精度,对信号幅值进行归一化处理可以更直接地反映不同深度缺陷产生的曲线间的相互关系,大电流激励的脉冲涡流信号幅值能反映较厚钢板表面和亚表面缺陷深度。
In order to detect the defects on thicker steel plate, a high--current pulse was needed, which was generated by chopping the low--voltage high power supply. Moreover, cylindrical probe was designed to detect surface defects of steel plate by slow discharging of exciting coil; rectangular probe was also designed to detect sub--surface defects of steel plate by instant discharging of exciting coil. Then the transient induced voltage signal of pulsed eddy current was processed by the wavelet filtering and amplitude normalization. Experimental results show that the wavelet filtering can im- prove detecting accuracy and the signals amplitude normalized can reflect the relationship of the defect curves at different depths defects more directly. It is concluded that amplitude of high pulsed eddy current signal excited by high--current can reflect the depths of defects on surface and sub--surface of thicker steel plate effectively.
出处
《中国机械工程》
EI
CAS
CSCD
北大核心
2013年第13期1773-1776,1782,共5页
China Mechanical Engineering
基金
国家自然科学基金资助项目(60927004)
"十二五"国家科技支撑计划资助项目(2011BAK06B01-03-01)
关键词
较厚钢板
大电流脉冲
小波滤噪
幅值归一化
thicker steel plate
high--current pulse
wavelet
iltering
amplitude normalization