Fundamentals of Nondestructive Measurement of Biaxial Stress in Steel Utilizing Magnetoelastic Effect under Low Magnetic Field
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概要
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The relationship between magnetization and principal stress under a triaxial stress field is deduced theoretically from an equilibrium condition between magnetoelastic and magnetization energies calculated on polycrystalline iron. The relationship is expressed by a formula in which the intensity of magnetization parallel to the principal axis of the stress tensor decreases in proportion to the difference between the largest principal stress and the magnetizing-directional principal stress. A biaxial stress is developed in a cruciform testpiece made of mild steel, and then magnetizations in the direction of principal stress parallel and normal to the surface of the testpiece are measured using U- and C-shaped magnetic sensors, respectively. The measured results are revised considering the spread of magnetic flux. The experimental results fundamentally agree with theoretical predictions. The quantitative discrepancies are discussed.
- 社団法人応用物理学会の論文
- 1991-11-15
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関連論文
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- Fundamentals of Nondestructive Measurement of Biaxial Stress in Steel Utilizing Magnetoelastic Effect under Low Magnetic Field