Rapid flaw depth estimation from SQUID-based eddy current nondestructive evaluation

M. Pattabiraman; R. Nagendran; M.P. Janawadkar

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Rapid flaw depth estimation from SQUID-based eddy current nondestructive evaluation

机译：基于基于SQUID的涡流无损评估的快速缺陷深度评估

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摘要

A scheme to rapidly estimate the depth of an unknown flaw from finite element two dimensional calculations using sheet inducer geometry is described. The linear relationship between the phase of the defect magnetic field (difference between the magnetic field arising from eddy currents in flawed and unflawed regions of a plate) and the depth of a flaw is utilized along with two experimental SQUID-based eddy current nondestructive evaluation line scans—one with a flaw at a known depth for reference and the other with the unknown flaw. The results are in good agreement with experimental data obtained with a double-D coil.

机译：描述了一种使用薄板诱导器几何结构从有限元二维计算中快速估算未知缺陷深度的方案。利用两条基于SQUID的实验性涡流无损评估线，利用缺陷磁场的相位（板的有缺陷和无缺陷区域中由涡流产生的磁场之差）与缺陷深度之间的线性关系。扫描-一种具有已知深度的缺陷以供参考，另一种具有未知的缺陷。结果与使用双D型线圈获得的实验数据非常吻合。

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来源
《NDT & E international》 |2007年第4期|p.289-293|共5页
作者
M. Pattabiraman; R. Nagendran; M.P. Janawadkar;
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作者单位

Department of Physics, Indian Institute of Technology, Madras, Chennai 600 036, India;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类工业通用技术与设备;金属的分析试验（金属材料试验）;
关键词
SQUIDs; nondestructive testing; electromagnetic testing; eddy-current testing; finite-element analysis;

机译：SQUID;无损检测;电磁检测;涡流检测;有限元分析;

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专利

1. Nondestructive evaluation of various materials using a SQUID-based eddy-current system [J] . Muck M., Korn M., Welzel C., IEEE Transactions on Applied Superconductivity . 2005,第2期

机译：使用基于SQUID的涡流系统对各种材料进行无损评估
2. FEA Design and Misfit Minimization for In-Depth Flaw Characterization in Metallic Plates With Eddy Current Nondestructive Testing [J] . Cacciola M., Calcagno S., Megali G., Magnetics, IEEE Transactions on . 2009,第3期

机译：涡流无损检测的金属板深度缺陷表征的有限元分析设计和失配最小化
3. Assessment of the Hazard Level (Depth) of Flaws Using a ВД-12НФМ Eddy Current Flaw Detector [J] . A.N. Bizyulev, V.F. Muzhitskii Russian Journal of Nondestructive Testing . 2004,第3期

机译：使用ВД-12НФМ涡流探伤仪评估缺陷的危害水平（深度）
4. Evaluation of Complex Multifrequency Eddy Current Transducer Designed For Precise Flaw Depth Measurements [C] . Tomasz CHADY, Piotr BANIUKIEWICZ, Ryszard SIKORA, International Workshop on Electromagnetic Nondestructive Evaluation . 2008

机译：复杂多频涡流换能器的评价专为精确探伤深度测量而设计
5. A THEORETICAL INVESTIGATION OF EDDY CURRENT RESPONSE TO SUBSURFACE FLAWS FOR APPLICATION IN NONDESTRUCTIVE EVALUATION [D] . ZAMAN, AFROZ JAHAN MANIRA. 1981

机译：非破坏性评价应用涡流响应涡流响应的理论研究
6. A Smart Eddy Current Sensor Dedicated to the Nondestructive Evaluation of Carbon Fibers Reinforced Polymers [O] . Mohammed Naidjate, Bachir Helifa, Mouloud Feliachi, 2017

机译：专门用于碳纤维增强聚合物的无损评估的智能涡流传感器
7. Detection and sizing of surface flaws with a squid-based eddy-current probe [O] . J.C. Moulder, T.E. Capobianco 1987

机译：用基于鱿鱼的涡流探针检测和尺寸表面缺陷
8. Nondestructive Evaluation (NDE) Technology Initiatives Program (NTIP). Delivery Order 0030: Magnetoresistive Sensors for Eddy Current Imaging Nondestructive Evaluation (NDE) [R] . Rempt, R. D. 2003

机译：无损评估（NDE）技术倡议计划（NTIp）。交货单0030：用于涡流成像无损评估（NDE）的磁阻传感器

Rapid flaw depth estimation from SQUID-based eddy current nondestructive evaluation

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