Hideaki Sawada scite author profile

Hideaki Sawada

5Publications

17Citation Statements Received

35Citation Statements Given

How they've been cited

How they cite others

144

Affiliations

Nippon Steel, Nippon Steel and Sumitomo Metal (Germany)

Publications

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Application of Grain Boundary Segregation Prediction Using a Nano-Polycrystalline Grain Boundary Model to Transition Metal Solute Elements: Prediction of Grain Boundary Segregation of Mn and Cr in bcc-Fe Polycrystals

2022

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A prediction method for grain boundary segregation using a nano-polycrystalline grain boundary model is applied to the grain boundary segregation of Cr and Mn in bcc-Fe polycrystals for which experimental results exist, and the validity of the prediction method is verified. In this prediction method, focusing on the fact that the atomic structure of grain boundaries is almost independent of grain size, grain boundaries of polycrystals with grain sizes of the order of micrometers are modeled as grain boundaries of nano-polycrystals, for which structural relaxation calculations by molecular dynamics calculations are possible. For this grain boundary model, the grain boundary segregation energy of each site is calculated exhaustively using the interatomic potential. In addition, the average amount of grain boundary segregation in the polycrystal is calculated from the obtained grain boundary segregation energy. With this prediction method, the average amounts of grain boundary segregation and segregation energies of Cr and Mn in bcc-Fe polycrystals can be calculated and compared with the experimental results. Calculated results for both elements reproduced the experimental results well, suggesting that this prediction method is also effective in predicting the grain boundary segregation of other solute elements.

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Electronic structure analysis of magnetic properties of Fe16N2

Sawada

Nogami

Matsumiya

1993

J Computer-Aided Mater Des

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Application of Grain Boundary Segregation Prediction Using a Nano-Polycrystalline Grain Boundary Model to Transition Metal Solute Elements: Prediction of Grain Boundary Segregation of Mn and Cr in bcc-Fe Polycrystals

Ito

Tanaka

Sawada

2021

J. Japan Inst. Metals and Materials

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The Crystal Structure of Tellurite (TeO₂).

Ito¹,

Sawada²

1940

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Characterization of age hardening mechanism of low-temperature aged low-carbon steel by transmission electron microscopy

Kawahara

Maeda

Kinoshita

et al. 2022

Materials Characterization

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Hideaki Sawada

Application of Grain Boundary Segregation Prediction Using a Nano-Polycrystalline Grain Boundary Model to Transition Metal Solute Elements: Prediction of Grain Boundary Segregation of Mn and Cr in bcc-Fe Polycrystals

Electronic structure analysis of magnetic properties of Fe16N2

Application of Grain Boundary Segregation Prediction Using a Nano-Polycrystalline Grain Boundary Model to Transition Metal Solute Elements: Prediction of Grain Boundary Segregation of Mn and Cr in bcc-Fe Polycrystals

The Crystal Structure of Tellurite (TeO₂).

Characterization of age hardening mechanism of low-temperature aged low-carbon steel by transmission electron microscopy

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About

Hideaki Sawada

Application of Grain Boundary Segregation Prediction Using a Nano-Polycrystalline Grain Boundary Model to Transition Metal Solute Elements: Prediction of Grain Boundary Segregation of Mn and Cr in bcc-Fe Polycrystals

Electronic structure analysis of magnetic properties of Fe16N2

Application of Grain Boundary Segregation Prediction Using a Nano-Polycrystalline Grain Boundary Model to Transition Metal Solute Elements: Prediction of Grain Boundary Segregation of Mn and Cr in bcc-Fe Polycrystals

The Crystal Structure of Tellurite (TeO2).

Characterization of age hardening mechanism of low-temperature aged low-carbon steel by transmission electron microscopy

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Product

Resources

About

The Crystal Structure of Tellurite (TeO₂).