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Evaluation of high spatial resolution imaging of magnetic stray fields for early damage detection
(2017)
The paper discusses the evaluation of elastic and plastic strain states in two low-carbon steels of the same steel group with high spatial resolution GMR (giant magneto resistance) sensors. The residual stress distributions of tungsten inert gas welded plates were determined by means of neutron diffraction as a reference. The normal component of local residual magnetic stray fields arise in the vicinity of the positions of maximum stress. The experiments performed on flat tensile specimen indicate that the boundaries of plastic deformations are a source of stray fields. The spatial variations of magnetic stray fields for both the weld and the tensile samples are in the order of the earths magnetic field.
Magneto resistive (MR) sensors are suited for a wide range of different applications. Especially due to their small sizes and their frequency-independent behaviour, they are eligible candidates for non-destructive testing methods where high spatial resolution is required. The use of specialized magnetic field probes enables not only a defect evaluation, but also a localized characterization of ferromagnetic materials.
This paper presents some NDT (non-destructive testing) examples concerning magnetic flux leakage applications (MFL) and eddy current testing (ET). For MFL-testing we used an NDT-adapted GMR (Giant MR) sensor array for the detection of small inclusions in thin steel sheets. We also investigated the effects of microstructure on magnetic properties using GMR sensors. The ET-example describes an MR array probe consisting of 32 MR-elements, an ASIC, subsequent readout components and a one-wire excitation to generate eddy currents inside the material (developed in the EU-funded IMAGIC-project, 2011-2014, 7th Framework Programme). Using this MR-probe we achieved results with a better spatial resolved defect detection of neighbouring boreholes compared to “conventional” ET-probes.