| Kenji Kaneko | Last modified date:2024.02.22 |
Professor /
Structural Materials Engineering /
Department of Materials Science and Engineering /
Faculty of Engineering
Reports
| 1. | Rika Kawano, Kenji Kaneko, Toru Hara, Kazuhiro Yamada, Yukio Sato, Kenji Higashida, Masao Kikuchi, Decorated dislocations with fine precipitates observed by FIBSEM slice-sectioning tomography, ISIJ International, 10.2355/isijinternational.55.858, 2015.01, Dispersion behavior of intragranular NbC precipitates in Nb added austenitic stainless steel were investigated via nanoscopic characterization in detail, FIB-SEM slice-sectioning tomography, orientation image microscopy, energy-dispersive X-ray spectrometry (EDS), selected area electron diffraction pattern (SAEDP) and transmission electron microscopy (TEM). The heterogeneous dispersion of fine intragranular NbC precipitates were visualized, and in particular, it was found that they were on the {111} slip plane and associated with dislocations.. |
| 2. | Electron tomography to visualise dislocations in three-dimension M. Tanaka, K. Higashida, K. Kaneko, M. Mitsuhara, S. Hata Kenbikyo, Vol. 45 No. 2 (2010) pp. 103-108. |
| 3. | , [URL]. |
| 4. | Hiroya Abe, Kenji Murata, Takehisa Fukui, W. J. Moon, Kenji Kaneko, Makio Naito, Microstructural control of Ni-YSZ cermet anode for planar thin-film SOFCs, 10.1016/S1464-2859(06)70990-7, 2006.03, A Ni-Y2O3-stabilized ZrO2 (Ni-YSZ) cermet anode was fabricated for solid oxide fuel cells (SOFC) by conventional ceramic processing using NiO-YSZ composite particles. No amorphous phases were found at the interface between Ni and YSZ, and there is an orientation relationship between the Ni and YSZ grains. The cermet anode showed high electrical performance at 800°C. The results indicate that the electrochemical activity of the Ni-YSZ cermet anode is enhanced with the microstructure.. |
| 5. | ECAP加工したAl‐Mg2Si合金に及ぼす過剰Si,Mgの影響. |
| 6. | Y. Ohta, M. Kitayama, K. Kaneko, S. Toh, F. Shimizu, K. Morinaga, In Situ Measurement of Electric Capacity - A Noble Method for Fabricating the Nanoglass-, 2004.01. |
| 7. | Ceramics and Nanotechnology K. Kaneko Kurosaki Harima Technical Report Vol.151 (2003)pp.14-23.. |
| 8. | 電子顕微鏡法による材料開発のための微細構造研究最前線(3) 強ひずみ加工によるアルミニウム合金第2相粒子の変形. |
| 9. | 強ひずみ加工に伴う析出型Al‐Ag合金の組織変化. |
| 10. | 第3元素(Mg,Sn,Zr)を添加したAl‐Cu析出合金の粒界PFZにおける拡散挙動. |
| 11. | Al‐Cu合金の無析出帯における拡散挙動. |
| 12. | ECAP加工を施したMg‐7.5%Al‐0.2%Zr合金の微細組織と超塑性. |
| 13. | X線面分析によるAl‐3.7mass%Cu合金の無析出帯の解析. |
| 14. | Grain boundary analysis of ceramics by EELS. |
| 15. | Analytical investigation of the interface between SiC and graphite within the HIPed non-additive sintered SiC.. |
| 16. | Grain Boundary Characterization of Ceramics by STEM K. Kaneko, I. Tanaka and S. Tsurekawa Japanese Institute of Metals "Materia" Vol.37 (1998)pp.938-944.. |
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