Optimizing the Design of Multilayer Eddy Current Probes — A Theoretical and Experimental Study
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Begun in 1973, the Review of Progress in Quantitative Nondestructive Evaluation (QNDE) is the premier international NDE meeting designed to provide an interface between research and early engineering through the presentation of current ideas and results focused on facilitating a rapid transfer to engineering development.
This site provides free, public access to papers presented at the annual QNDE conference between 1983 and 1999, and abstracts for papers presented at the conference since 2001.
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Abstract
General Electric developed a new eddy current probe technology in the early ‘90’s to address critical NDE needs in the aerospace industry. The technology utilizes lasers to trace out precise, multiple turn coils on a flexible substrate. The result is an eddy current probe that is capable of conforming to complex geometries and inspecting with a very high detection sensitivity. To cover large areas quickly, arrays of these coils were also fabricated and are currently in use with great success at GE inspection facilities. The newly developed probes, however, raised some unique questions and problems that needed to be addressed in order to determine the“best” probe configuration. In this paper we summarize these issues and through a combination of experimental and finite element results, we show how the design of the probe is“optimized” for various applications. Further details on the development of the technology are provided in a companion paper in these proceedings[1].