Determination of Magnetisation Conditions in a Double-Core Barkhausen Noise Measurement Set-up

• Published in: Journal of nondestructive evaluation Vol. 34; no. 2
• Main Authors: Augustyniak, Marek, Augustyniak, Bolesław, Piotrowski, Leszek, Chmielewski, Marek
• Format: Journal Article
• Language: English
• Published: New York Springer US 01.06.2015
• Subjects: Characterization and Evaluation of Materials; Classical Mechanics; Control; Dynamical Systems; Engineering; Solid Mechanics; Vibration; Dynamic magnetisation of bulk volume; Magnetic Barkhausen effect (MBN); Eddy currents; Electromagnetic finite element method
• ISSN: 0195-9298; 1573-4862
• DOI: 10.1007/s10921-015-0288-6

The magnetic Barkhausen effect is useful for assessing 1D and 2D stress states of ferromagnetic steel objects. However, its extension to technically important materials, such as duplex anisotropic steels, remains challenging. The determination of magnetisation inside the studied object and the electromagnet for various geometries, materials and magnetisation angles is a key issue. Three-dimensional, dynamic finite element analysis has been applied to reproduce time-varying fields inside and outside the prototype of a double-core magnetising setup. Useful relationships between characteristics (peak height and location) and magnetic induction vector have been proposed. The qualitative plausibility of simulation has been validated with an experiment and an analytic formula of skin depth. The angular anisotropy of magnetic Barkhausen effect (MBN) in an isotropic sample has been shown in simulation and confirmed experimentally. The numerical model, despite some limitations, seems to be an efficient tool for calibrating stress/MBN relationships at least in isotropic structural steel components.