Kenji Tsuboi scite author profile

Kenji Tsuboi

5Publications

30Citation Statements Received

24Citation Statements Given

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Affiliations

Kyushu Institute of Technology, Tokyo Institute of Technology

Publications

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Residual Stress Differences between Uniform and Non-Uniform Heating Treatment of Bimetallic Roll: Effect of Creep Behavior on Residual Stress

Noda

Sano

Aridi

et al. 2018

Metals

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The work roll is one of the most important tools in the steel rolling industry. Work rolls are used under extremely severe conditions such as high temperature, high loading, and an aggressive atmosphere. To meet those demands, bimetallic rolls have recently been used to replace conventional single material rolls. Usually, a compressive residual stress is introduced to prevent surface cracking. However, a tensile residual stress at the center appears to balance the compressive residual stress. This center residual stress sometimes causes roll failure. In this paper, therefore, a simulation is performed using the finite element method (FEM) for the quenching process of the bimetallic roll by considering the creep behavior. Then the effect of pre-heating conditions is discussed. The results show that the maximum stress point for the tensile stress at the roll center for non-uniform heating is 24% less than that achieved with uniform heating, although the same compressive stresses appear at the surface. Then, using different work roll diameters, the center tensile residual stress for non-uniform heating is found to be smaller than the uniform heating. Also, it is found that the area ratios of the shell-core only have a small influence on the residual stress of the bimetallic roll for both heating treatments.

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Reduction of Residual Stress in Bimetallic Work Roll by Tempering

Noda¹,

Aridi²,

Torigoe³

et al. 2020

SOSEI-TO-KAKOU

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Bimetallic rolls are used in steel rolling industries because of their excellent hardness and wear resistance. To reduce the center residual stress, quenching heating treatment is performed immediately after heating the roll nonuniformly instead of uniformly. In this study, we found that by using a nonuniform heating quenching method the maximum tensile stress that appears near the shell-core boundary was decreased by about 26%. It may be concluded that nonuniform heating quenching is useful in reducing the risk of roll failure by decreasing the center tensile stress without decreasing the surface compressive stress. Analysis including a tempering process was also conducted. It was found that for uniform heating quenching, the maximum stress at the center of the roll decreases by 33% from 396 MPa to 264 MPa after the first tempering and the maximum stress decreases by about 54% after a second tempering.On the other hand, with nonuniform heating quenching, the maximum stress decreases by 25% from 286 MPa to 214 MPa after the first tempering and by about 46% after the second tempering. This tempering effect is mainly caused by creep, whereas the transformation factors only slightly affect the result. Therefore, it is important to consider creep in the analysis.

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Quench Properties of a 7-T Force-Balanced Helical Coil for Large-Scale SMES

Nomura

Kasuya

Tanaka

et al. 2009

IEEE Trans. Appl. Supercond.

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Acoustic Emission in a Superconducting Force-Balanced Helical Coil

Nomura

Tsuboi

Ito

et al. 2011

IEEE Trans. Appl. Supercond.

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Experimental Results of a 7-T Force-Balanced Helical Coil for Large-Scale SMES

Nomura

Kasuya

Tanaka

et al. 2008

IEEE Trans. Appl. Supercond.

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Kenji Tsuboi

Residual Stress Differences between Uniform and Non-Uniform Heating Treatment of Bimetallic Roll: Effect of Creep Behavior on Residual Stress

Reduction of Residual Stress in Bimetallic Work Roll by Tempering

Quench Properties of a 7-T Force-Balanced Helical Coil for Large-Scale SMES

Acoustic Emission in a Superconducting Force-Balanced Helical Coil

Experimental Results of a 7-T Force-Balanced Helical Coil for Large-Scale SMES

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