Abstract
The performance and degree of efficiency of transformers are directly determined by the bulk magnetic properties of grain oriented electrical steel laminations. The core losses can be improved by post manufacturing methods, so-called domain refinement techniques. All these methods induce mechanical or thermal stress that refines the domain structure. The most commonly used technique is laser scribing due to the no-contact nature and the ease of integration in existing production systems. Here we show how directional neutron dark-field imaging allows visualizing the impact of laser scribing on the bulk and supplementary domain structure. In particular, we investigate the domain formation during magnetization of samples depending on laser treatment parameters such as laser energy and line distances. The directional dark-field imaging findings were quantitatively interpreted in the context with global magnetic hysteresis measurements. Especially we exploit the orientation sensitivity in the dark-field images to distinguish between different domain structures alignment and their relation to the laser scribing process.
Highlights
The performance and degree of efficiency of transformers are directly determined by the bulk magnetic properties of grain oriented electrical steel laminations
The bulk magnetic domain behavior of four grain oriented (GO) electrical steel sheets was investigated by neutron grating interferometry
We showed that the samples have to be investigated under ω= 0° and ω= 90° orientation to account for the contribution to the dark-field image (DFI) signal of both the basic volume and supplementary domain structures
Summary
Behavior of silicon steel sheet without any preparation (removing of the isolating coating layer) that has be shown recently influencing the domain structure[13]. For these measurements a 250 mm × 30 mm single sheet tester (SST) and a measurement device (MPG 200) from Brockhaus were used. As the laser lines are lying perpendicular to the magnetization direction we choose the two orientation of ω= 0° and ω= 90° to perform the direction dependent DFI experiments
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