摘要
测量由钢板制作的压力容器和管道的壁厚,可以了解其腐蚀程度.用脉冲涡流检测钢板等铁磁材料的厚度时,由保护层和保温层构成的包覆层,会对测厚结果产生影响.根据脉冲涡流检测的工作原理,使用有限元法,对有包覆层铁磁试件的厚度测量进行了仿真研究,重点分析了覆盖层对测量结果的影响.结果表明,包覆层对测量的影响与保护层材料、试件厚度和保温层厚度有关;对试件厚度测量范围的影响铝皮比铁皮保护层大,使用铝皮保护层时,不能测量厚度小于6mm的试件;试件与保温层越厚,测量误差越小,试件的厚度大于10mm,保温层的厚度大于50mm时,测量结果不再受保覆层的影响.
By measuring the wall thicknesses of pressure vessels and pipes made of steel plates, one can determine their extent of corrosion. When the pulsed eddy current technology is used to measure the thicknesses of steel plates and other ferromagnetic materials, the cladding layer which consists of a protective layer and an insulating layer could affect the measurement results. In this paper, we mainly study this problem. According to the principle of pulsed eddy current detecting, using the finite element method, we simulated the thickness measurement of the ferromagnetic specimen with cladding layer, and emphatically analyzed the effects of the cladding layer on the measurement. The effects of the cladding layer on the measurement are related to the protective layer material, the specimen and insulating layer thickness. The effects of aluminum sheet on the measurement range of the specimen thickness are larger than those of iron sheet. When using aluminum sheet as protective layer, we cannot measure the thickness if the specimen is less than 6 mm thickness. The smaller thickness of the specimen and insulating layer is, the smaller measurement error is. When the specimen thickness is more than 10 mm, and insulating layer thickness is more than 50 mm, one can neglect effects of the cladding layer on the measurement.
出处
《测试技术学报》
2013年第3期217-222,共6页
Journal of Test and Measurement Technology
基金
国家质检总局科研专项基金资助项目(201110028-04)
关键词
脉冲涡流检测
包覆层
铁磁介质
测厚
特征衰减时间
pulsed eddy current detecting
the cladding layer
ferromagnetic material
thickness measure-ment
characteristic decay time
