Journal ArticleDOI
Study on the Effect of Elastic Stress and Microstructure of Low Carbon Steels on Barkhausen Noise
Naoya Kasai,Hiroyuki Koshino,Hiroyuki Koshino,Kazuyoshi Sekine,Hiroshi Kihira,Manabu Takahashi +5 more
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TLDR
In this article, the effect of elastic stress and microstructure on Barkhausen noise in low carbon steels subjected to different heat treatments was investigated, and the results indicated that for the test piece heated at 700 ∘C for 10 hours, a drastic change in the micro-structure occurred compared to that for other test pieces.Abstract:
The present study investigates the effect of elastic stress and microstructure on Barkhausen noise in low carbon steels subjected to different heat treatments. Barkhausen noise in an as-received test piece and a test piece heated at 450 ∘C for 1.5 hours was found to increase with increasing elastic stress. However, in a test piece heated at 700 ∘C for 10 hours, Barkhausen noise was observed to saturate with increasing elastic stress following an initial increase. To clarify the reason for this saturation behavior, magnetization measurements were carried out and the microstructure and texture of the test pieces were evaluated using microscopy and electron backscatter diffraction. The results indicated that for the test piece heated at 700 ∘C for 10 hours, a drastic change in the microstructure occurred compared to that for the other test pieces. From the experimental and analytical results, it was concluded that for the former test piece, Barkhausen noise saturated under a low elastic stress due to the globularization of pearlite, which caused 90∘ domain walls to become 180∘ domain walls when a low elastic stress is applied.read more
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A novel approach of accurately evaluating residual stress and microstructure of welded electrical steels
TL;DR: In this article, the determination of residual stress distribution in welded non-oriented electrical steel samples is discussed, and two methods are used: the magnetic, non-destructive method of Barkhausen noise and the semi-destructively method of X-ray diffraction.
Journal ArticleDOI
Effect of Localized Microstructure Evolution on Higher Harmonic Generation of Guided Waves
TL;DR: The use of nonlinear ultrasonics to characterize microstructural evolution is investigated with the aim of enabling earlier remaining useful life prediction and thereby greatly improving condition based maintenance as discussed by the authors.
Journal ArticleDOI
An accurate evaluation of the residual stress of welded electrical steels with magnetic Barkhausen noise
TL;DR: In this paper, the determination of residual stress distribution in welded non-oriented electrical steel samples is discussed, and two methods are used: the magnetic, non-destructive method of Barkhausen noise and the semi-destructively method of X-ray diffraction.
Journal ArticleDOI
A review of fatigue damage detection and measurement techniques
TL;DR: The reliability, advantages, weaknesses, case/material dependency and applicability of each method are compared and tabulated for making a framework for choosing a suitable technique for fatigue crack or damage detection of material or components.
Journal ArticleDOI
Characterization of applied tensile stress using domain wall dynamic behavior of grain-oriented electrical steel
TL;DR: In this article, a threshold magnetic field (TMF) feature to reflect 180 ° domain wall (DW) characteristics behaviors in different grains is proposed for stress detection, and the results indicate that 180 ° DWs dynamic in the inner grain is highly correlated with stress.
References
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Physics of ferromagnetism
聡信 近角,C. D. Graham +1 more
TL;DR: Magnetic properties of magnetism have been studied in a wide range of applications, including magnetism of amorphous materials, magnetism and magnetostriction as mentioned in this paper, spin distribution and domain walls.
Journal ArticleDOI
Plastic versus elastic deformation effects on magnetic Barkhausen noise in steel
TL;DR: In this paper, the effects of elastic and plastic deformation on magnetic Barkhausen noise (MBN) signals were investigated on a number of mild steel plate samples subjected to varying degrees of uniaxial elastic deformation up to ∼40% strain.
Journal ArticleDOI
Characterization of pure iron and (130 p.p.m.) carbon–iron binary alloy by Barkhausen noise measurements: study of the influence of stress and microstructure
TL;DR: In this article, the authors measured and characterized the ferromagnetic noise from high purity iron and 130 p.p.m. carbon-iron alloy in various physical and metallurgical conditions, and analyzed the influence of microstructure in terms of Bloch wall interactions with crystal defects as pinning points, closure domains or dislocation configurations.
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Magnetic Barkhausen Noise and hysteresis loop in commercial carbon steel : influence of applied tensile stress and grain size
TL;DR: In this paper, the influence of applied tensile stress and grain size on Magnetic Barkhausen Noise and hysteresis loops in 1005 commercial steel is studied, and the results show that MBN can be utilized to evaluate changes in the microstructural and mechanical properties of commercial carbon steels.