Finding a crack's position and its parameters on the basis of non-destructive testing, using eddy currents-Reference-Cited by-同舟云学术

Finding a crack's position and its parameters on the basis of non-destructive testing, using eddy currents

Published:2014-10-28 Issue:6 Volume:33 Page:1978-1989
ISSN:0332-1649
Container-title:COMPEL: The International Journal for Computation and Mathematics in Electrical and Electronic Engineering
language:en
Short-container-title:

Author:

Jesenik Marko,Hamler Anton,Beković Miloš,Trlep Mladen

Abstract

Purpose – The purpose of this paper is to find the geometry of a crack within a conductive plate and its parameters, on the basis of non-destructive testing, using eddy currents. The input data represents the measured values of magnetic flux density within the centre of the excitation coil. Design/methodology/approach – The position of a crack can be determined by taking into consideration any change in the magnetic flux density between the measured points. The depth and width are determined through the use of a finite element model. Findings – These calculations are the basis for determining a function that explains how magnetic flux density changes if the depth or width has changed. Jacobi's matrix is calculated using the determined functions’ analytical derivatives. Originality/value – After wards, through the Newton-Raphson iterative procedure using the finite element method calculation results, the crack-depth and width can be obtained, this being one of the objectives in this paper. The suitability of the presented method was verified by the experimental example.

Publisher

Emerald

Subject

Applied Mathematics,Electrical and Electronic Engineering,Computational Theory and Mathematics,Computer Science Applications

Reference13 articles.

1. Dezni, C. , Shao, K. , Jianni, S. and Weili, Y. (2000), “Eddy current interaction with a thin-opening crack in a plate conductor”, IEEE Transaction on Magnetics, Vol. 36 No. 4, pp. 1745-1749.

2. Fan, M. , Huang, P. , Ye, B. , Hou, D. , Zhang, G. and Zhou, Z. (2009), “Analytical modeling for transient probe response in pulse eddy current testing”, NDT&E International, Vol. 42 No. 5, pp. 376-383.

3. Fava, J. , Obrutsky, A. and Ruch, M. (2004), “Design and construction of eddy current sensors with rectangular plane coils”, Proceedings of the 16th World Conference on NDT, Montreal, 30 August-3 September.

4. Gilles-Pascaud, C. and Pierantoni, M. (2004), “Eddy current array probe development for nondestructive testing”, Proceedings of the 16th World Conference on NDT, Montreal, 30 August-3 September.

5. Lay, D.C. (2003), Linear Algebra and its Applications, 3rd ed., Chapter 6, Pearson Education Inc., NJ.