Tatsuhiko Kabutomori scite author profile

Tatsuhiko Kabutomori

3Publications

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Affiliations

Kobe Steel (Japan)

Publications

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Combinatorial Study on Irradiation Damage and Magnetic Properties of Fe-Cr alloys

Kamada¹,

Kabutomori²,

Kobayashi³

et al. 2014

Journal of the Japan Society of Applied Electromagnetics and Me

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An Fe-Cr single crystal film with Cr concentration gradient (0% -13%Cr) was prepared by electron beam deposition and irradiated by 2.4MeV Cu 2+ ions at 475°C. Irradiation effects on magnetization process were investigated using a Kerr microscope. Spike domains were observed at the boundary between irradiated and unirradiated regions, and the critical magnetic field where the spike domain disappears increased above the Cr concentration of 9%. This paper shows the usefulness of combinatorial study on irradiation phenomena and demonstrates a feasibility of magnetic nondestructive evaluation of the embrittlement in Fe-Cr alloys.

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Evaluation Method for Residual Stresses Induced by Surface Treatments of Crankshafts and Effect of These Stresses on Fatigue Strength

Adachi¹,

Ikegami²,

Kabutomori³

et al. 2020

Journal of The Japan Institute of Marine Engineering

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Influence of Segregation of a Large Forged Steel Product on X-Ray Stress Measurement by the Cos<i>α</i> Method

Kabutomori

Takamatsu

Takashima

et al. 2019

J. Soc. Mat. Sci., Japan

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Surface treatments involving residual stresses are an effective method to increase the fatigue strength of forged steel products. Therefore, X-ray stress measurement is important to evaluate the fatigue strength of these materials. For large forged steel products, regions where alloy elements are segregated cannot be avoided. Furthermore, because of the large size of these products, it may be difficult to measure their residual stresses in a laboratory. Nevertheless, compact and portable X-ray equipments operating based on the cos method using a two-dimensional detector, are appropriate for the measurement of the residual stresses at the manufacturing sites. Although it is known that carbon and alloy elements concentration influence X-ray stress measurement, there is little research about the influence of segregation in X-ray stress measurement using the cos method. This study evaluated the differences in X-ray stress results using the cos method in segregation regions of large forged products made of CrMo steel, under tensile stress. It was confirmed that the differences between the X-ray stress and nominal stress increased with increase of carbon concentration in segregation, and crystal grains in which coarse and fine grain size coexist worsen the linearity of the cos diagram. Because the level of carbon concentration and grain size varies at each X-ray irradiation points, we proposed an averaging method of X-ray stresses on plural measurement points as an effective way to avoid the effect of segregation.

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