| 1. |
K. Shinagawa, Analysis of initial stage of liquid-phase sintering by combined multi-phase-field/discrete-element method, Ceramics International, https://doi.org/10.1016/j.ceramint.2024.03.341, 2024.03. |
| 2. |
Isshin Ando, Kentaro Kudo, Kyosuke Hirayama, Yuji Shigeta, Kazunari Shinagawa, Akihisa Takeuchi, Masayuki Uesugi, Yukiko Ozaki, Quantitative estimation of contribution of pore size and the distance between nearest neighbour pores on high cycle fatigue (HCF) crack initiation in Ti-6Al-4V MIM-sintered materials, International Journal of Fatigue, 171, 107557, 2023.06. |
| 3. |
Y. Shigeta, M. Aramaki, K. Kudo, K. Shinagawa, N. Nomura, K. Kondoh, M. Hoshino, K. Uesugi, Y. Ozaki, Understanding the effect of process parameters on three-dimensional pore configurations and mechanical properties of laser additive manufactured Ti using synchrotron X-ray computed tomography and homology, World PM2022 Proceedings, 2022.10. |
| 4. |
K. Shinagawa, A Combined Multi-Phase-Field/Discrete-Element Method for Sintering of Blended Elemental Powders, Advances in Powder Metallurgy & Particulate Materials—2021, 15-21, 2021.12. |
| 5. |
Toshiko Osada, Satoshi Kobayashi, Kazunari Shinagawa, Dimensional accuracy for metal injection molding parts, Proceedings of The 5th Asian Symposium on Materials and Processing, 170-171, 2018.12. |
| 6. |
Kentaro Kudo, Kazunari Shinagawa, Hideshi Miura, The Effects of Grain Size and Pore Size on the High Cycle Fatigue Behavior of Injection Molded Ti-6Al-4V Compacts, Proceedings of the 2018 International Conference on Powder Metallurgy & Particulate Materials, 243-252, 2018.08. |
| 7. |
Kentaro KUDO, Kazunari SHINAGAWA, Hideshi MIURA, Effect of α + β region sintering on the mechanical properties of injection molded Ti-6Al-4V compacts, Mechanical Engineering Journal, 5, 4, No.17-00686, 2018.04. |
| 8. |
工藤健太郎,品川一成,三浦秀士, Mo, B両元素を添加によるTi-6Al-4V系MIM材の微構造および静的・動的機械特性へ与える影響因子の評価, 粉体および粉末冶金, 65, 3, 145-153, 2018.03. |
| 9. |
Zoran S. Nikolic, K. Shinagawa, Capillary liquid bridge and grain coarsening during liquid phase sintering, Science of Sintering, 49, 1-10, 2017.03. |
| 10. |
A. Nasser, K. Shinagawa, H. El-Hofy, A. A. Moneim, Enhancing stability of Co gradient in nano-structured WC–Co functionally graded composites using graphene additives, Journal of the Ceramic Society of Japan, 124, 12, 1191-1198, 2016.12. |
| 11. |
K. Kudo, H. Ishimitsu, J. Choe, T. Osada, H. Miura, K. Shinagawa, Effect of Grain Size on the Fatigue Properties of Injection Moulded Ti-6Al-4V Compacts, Proceedings of the PM2016 World Congress, 3291789, 2016.10. |
| 12. |
Z. S. Nikolic, K. Shinagawa, Simulation of grain coarsening within pendular and capillary liquid bridges, Proceedings of 13th International Conference on Fundamental and Applied Aspects of Physical Chemistry, 3, 533-536, 2016.09. |
| 13. |
Fumihiro Wakai, Kota Katsura, Yutaka Shinoda, Takashi Akatsu, Kazunari Shinagawa, Sintering force behind the viscous sintering of two particles, Acta Materialia, 109, 292-299, 2016.05. |
| 14. |
山本 裕一, 節 晃彦, 楠瀬 尚史, 品川 一成, 馮 旗, Lepidocrocite型K0.8Li0.27Ti1.73O4の水熱合成と粒子形状制御, 粉体および粉末冶金, 63, 4, 185-191, 2016.04. |
