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機構に所属する研究者の発表した論文を、タイトル・抄録・分野などから検索することができます。論文の分野はクラリベイト社のESI分類を参考に分類しています(Materials Science, Physics, Chemistry, Engineering, Biologyなど)。
最終更新日: 2024年04月19日
| 64件の論文が見つかりました。論文は出版年月日順に表示しています。(ヘルプ) | |
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| K. Tsuchiya, Y. Todaka, M. Umemoto. TEM Investigation of intermediate phase transformatio and micromodulation in Ni-Mn-Ga ferromagnetic shape memory alloys. Materials Science and Technology. 24 [8] (2008) 920-926 10.1179/174328408x302602 | |
| M. Nishida, M. Matsuda, Y. Yasumoto, S. Yano, Y. Yamabe-Mitarai, T. Hara. Crystallography and Morphology of Twins in Equiatomic TiPt Martensite. Materials Science and Technology. 24 [8] (2008) 884-889 10.1179/174328408x302549 | |
| 木吉 司. 強磁場発生技術の現状. MATERIALS SCIENCE AND TECHNOLOGY OF JAPAN. 44 [2] (2007) 35-40 | |
| 島村 清史, ビジョラ ガルシア, 竹川 俊二, 北村 健二. 紫外・真空紫外非線形光学応用BaMgF4単結晶の育成と評価. MATERIALS SCIENCE AND TECHNOLOGY OF JAPAN. 43 [6] (2006) 285-289 | |
| K. Laha, J. Kyono, T. Sasaki, N. Shinya. Effect of additions of Ti, B and Ce on microstructural stability, creep strength and creep damage in austenitic stainless steel. Materials Science and Technology. 21 [11] (2005) 1309-1317 10.1179/174328405x62305 | |
| T. Ohba, K. Kimura, F. Abe, K. Yagi, I. Nonaka. Degradation in Tensile and Creep Properties of 2.25Cr-1Mo Steel by Long-Term Service in Plant. Materials Science and Technology. 21 [4] (2005) 476-482 10.1179/174328405x20987 | |
| 小林 一夫, 山口 弘二. 原子力用316FR鋼の高温疲労特性. MATERIALS SCIENCE AND TECHNOLOGY OF JAPAN. 42 [1] (2005) 58-63 | |
| M. Taneike, N. Fujitsuna, F. Abe. Improvement of creep strength by fine distribution of TiC in 9Cr ferritic heat resistant steel. Materials Science and Technology. 20 [11] (2004) 1455-1461 10.1179/026708304225022322 | |
| J.H.G. Owen, K. Miki, D.R. Bowler. Short range and long range strain fields of Bi nanoline. Materials Science and Technology. 20 [8] (2004) 955-958 10.1179/026708304225019768 | |
| T. Ono, Y. Tomota, P. Lukas, D. Lugovy, D. Neov, N. Tsuchida, K. Nagai. In situ neutron diffraction during tensile straining of fine grained ferrite-pearlite steel. Materials Science and Technology. 20 [1] (2004) 121-125 10.1179/174328413x13789824293623 | |
