摘要
为提高核电设备表面缺陷检测能力,研究了近场发光二极管(LED)点光源照明条件下的光度立体三维检测方法。该方法采用迭代算法,确定光源发光特性参数,进而实现精确的光照强度估计,并结合光源与被检表面点空间位置的计算方法,实现近场LED点光源照明下被检测面上不同点的光照强度与光线方向的估计。以此为基础设计表面缺陷三维检测系统,并将该系统在表面损伤试样以及实际核电设备上进行实验验证。结果表明,该系统可以获取表面缺陷三维信息,并且对于划伤类缺陷,能够实现比较精确的深度测量。因此,该系统可以有效提高表面缺陷的检测能力。
To improve the visual inspection of nuclear power plant components,this study introduces the technology of three-dimensional reconstruction framework based on photo metric stereo under near-field LED lighting.An iterative algorithm is proposed to estimate the K value of different light sources and the light6 intensities for various image pixels.Combined with the calculation method of the spatial position of the light source and the detected surface points,the light intensity and light direction of different points on the detected surface are estimated under the illumination of near-field LED point light source.A surface defect detection system is designed based on this technology,and it is verified by experiments on surface damage samples and actual nuclear power equipment.The results show that this system can obtain three-dimensional surface data,and for scratch-type defects,it can further achieve accurate depth measurement.Therefore,it can effectively improve the detection ability of surface defects.
作者
黄三傲
李明
徐科
师英杰
Huang Sanao;Li Ming;Xu Ke;Shi Yingjie(Collaborative Innovation Center of Steel Technology,University of Science and Technology Beijing,Beijing,100083,China;CGN Inspection Technology Co.,Ltd.,Suzhou,Jiangsu,215000,China)
出处
《核动力工程》
EI
CAS
CSCD
北大核心
2021年第4期191-197,共7页
Nuclear Power Engineering
基金
国家自然科学基金项目(51674031,51874022)
国家重点研发计划(2018YFB0704304)。
