论文信息 - Numerical simulation of pulsed eddy-current nondestructive testing phenomena

Numerical simulation of pulsed eddy-current nondestructive testing phenomena

A general-purpose hybrid finite-element and finite-difference computational model developed for the prediction of pulsed eddy-current distribution in metals for nondestructive testing purposes is discussed. The numerical model uses an axisymmetric formulation to study coil configurations suspended over a metallic specimen. As a driving function, a pulsed Maxwell-distributed current density is applied. Resulting eddy-current distributions are discussed as a function of conductivity, permeability, and lift-off. The transition voltage response of a coil over an infinite half-space is numerically computed and compared to the solution obtained by a novel analytical approach. The numerical model is then used to determine the induced voltage due to a surface-breaking flaw. >

R. Palanisamy | R. Ludwig | X.-W. Dai

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