Magnetic Properties of Structural Steels for Simulation of Crack Monitoring by Finite Element Method

Abstract: The metal magnetic memory method is a novel technique for monitoring fatigue cracks in steel structures, which can reduce operational expenses and increase safety by minimizing inspections. The crack geometry can be identified by measuring the self magnetic flux leakage, which is induced by the Earth's magnetic field and the permanent magnetization. The finite element method can be used to simulate the induced magnetic field around cracks to help interpret the self magnetic flux leakage measurements, but it is… Show more

“…The stress magnetization measurements for different locations may not be directly compared as the stress magnetization is dependent on the total magnetization, which is most likely non-uniform especially around the machined elliptical defect. Still, it can be seen that the stress magnetization at high stress concentration areas such as location (1, 2) is generally much higher than where the stress is low such as location (1,3). For all the measurement points, the stress magnetization curves for increasing load are slightly different from those for decreasing load, but the way they differ from each other is not consistent for each of the measurement locations, see Figs. 12-14.…”

“…The Earth-induced magnetization from equation (3.1) can be modeled reasonably accurate with a linear magneto-static Finite Element model using the software package COMSOL Multiphysics. The same steel is used as in [3] so the material is modeled linearly with a relative permeability of 225. The geometry from Fig.…”

“…For accurate sizing of the crack, SMFL measurements must be interpreted correctly. Earlier research gave insight in the contributions of Earth-induced magnetization and permanent magnetization to the SMFL signals near a crack in a structural steel plate that is unloaded [2,3]. When applying fatigue loads on a cracked specimen, the SMFL will change due to crack opening [4] and stress-induced magnetization.…”

Effect of stress-induced magnetization on crack monitoring by self magnetic flux leakage method

“…The stress magnetization measurements for different locations may not be directly compared as the stress magnetization is dependent on the total magnetization, which is most likely non-uniform especially around the machined elliptical defect. Still, it can be seen that the stress magnetization at high stress concentration areas such as location (1, 2) is generally much higher than where the stress is low such as location (1,3). For all the measurement points, the stress magnetization curves for increasing load are slightly different from those for decreasing load, but the way they differ from each other is not consistent for each of the measurement locations, see Figs. 12-14.…”

“…The Earth-induced magnetization from equation (3.1) can be modeled reasonably accurate with a linear magneto-static Finite Element model using the software package COMSOL Multiphysics. The same steel is used as in [3] so the material is modeled linearly with a relative permeability of 225. The geometry from Fig.…”

“…For accurate sizing of the crack, SMFL measurements must be interpreted correctly. Earlier research gave insight in the contributions of Earth-induced magnetization and permanent magnetization to the SMFL signals near a crack in a structural steel plate that is unloaded [2,3]. When applying fatigue loads on a cracked specimen, the SMFL will change due to crack opening [4] and stress-induced magnetization.…”

Effect of stress-induced magnetization on crack monitoring by self magnetic flux leakage method

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