FEA Design and Misfit Minimization for In-Depth Flaw Characterization in Metallic Plates With Eddy Current Nondestructive Testing

Cacciola M.; Calcagno S.; Megali G.; Morabito F. C.; Pellicano D.; Versaci M.

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FEA Design and Misfit Minimization for In-Depth Flaw Characterization in Metallic Plates With Eddy Current Nondestructive Testing

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

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Nondestructive testing techniques are more and more exploited in order to quickly and cheaply recognize flaws into the inspected materials. Within this framework, a concern of eddy current tests is the depth of penetration $delta$, above all in such applications as the control of steel beams. Thus, an optimal design of exciting coil is strictly required in order to reach as higher $delta$ as possible. The aim of this paper is first to design, by finite-element analysis, and test by in-lab measurements, a suitable exciting coil. Subsequently, the inverse ill-posed problem for defect characterization, starting from experimental measurements, has been studied and regularized, in order to characterize the depth and the extension of defects.

机译：为了快速，廉价地识别被检查材料中的缺陷，越来越多地采用无损检测技术。在该框架内，涡流测试的一个关注点是穿透深度δ，尤其是在钢梁控制等应用中。因此，严格要求励磁线圈的最佳设计，以便达到尽可能高的δ值。本文的目的是首先通过有限元分析设计一种合适的励磁线圈，并通过实验室内测试进行测试。随后，从实验测量开始，对缺陷表征的逆不适定问题进行了研究和规范化，以表征缺陷的深度和扩展。

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《Magnetics, IEEE Transactions on》 |2009年第3期|p.1506-1509|共4页
作者
Cacciola M.; Calcagno S.; Megali G.; Morabito F. C.; Pellicano D.; Versaci M.;
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Deep cylindrical defects; eddy current; fluxgate sensor; metallic plates;

机译：深圆柱缺陷;涡流;磁通传感器;金属板;

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1. A new eddy current method for nondestructive testing of creep damage in austenitic boiler tubing;;A new eddy current method for nondestructive testing of creep damage in austenitic boiler tubing [J] . B. Augustyniak, M. Chmielewski, M.J. Sablik Nondestructive Testing and Evaluation . 2009,第1a2期

机译：奥氏体锅炉油管蠕变损伤无损检测的涡流新方法;;奥氏体锅炉油管蠕变损伤无损检测的涡流新方法;
2. Quantitative Minimization for Liftoff Distance Variation using Radial Basis Function Network on Eddy current Nondestructive Testing [J] . Jaejoon Kim, Daewon Kim, Lalita Udpa, International Journal of Engineering and Technology . 2016,第5期

机译：径向基函数网络在涡流无损检测中最小化离地距离变化
3. Nondestructive eddy current testing for the measurement of conductivity and surface buckling of metallic sheets [J] . Girgis A., Bastawros Awad Instrumentation and Measurement, IEEE Transactions on . 1986,第4aPartII期

机译：用于测量金属板电导率和表面屈曲的无损涡流测试
4. Ultrasonic Pulse-Echoes and Eddy Current Testing for Detection, Recognition and Characterisation of Flaws Detected in Metallic Plates [C] . Michele BUONSANTI, Matteo CACCIOLA, Salvatore CALCAGNO, European Conference on Non-Destructive Testing . 2006

机译：超声波脉冲回波和涡流测试，用于在金属板中检测到的缺陷的检测，识别和表征
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. An Eddy Current Testing Platform System for Pipe Defect Inspection Based on an Optimized Eddy Current Technique Probe Design [O] . Damhuji Rifai, Ahmed N. Abdalla, Ramdan Razali, 2017

机译：基于优化涡流技术探针设计的管道缺陷涡流检测平台系统
7. FUZZY CHARACTERIZATION OF FLAWED METALLIC PLATES WITH EDDY CURRENT TESTS [O] . Matteo Cacciola, Francesco C. Morabito, Daniela Polimeni, 2007

机译：涡流试验有缺陷金属板的模糊特性
8. Eddy Current Flows Around Cracks in Thin Plates for Nondestructive Testing [R] . Mukherjee, S., Morjaria, M. A., Moon, F. C. 1981

机译：涡流在薄板裂纹周围进行无损检测

FEA Design and Misfit Minimization for In-Depth Flaw Characterization in Metallic Plates With Eddy Current Nondestructive Testing

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