繰り返し重ね接合圧延(ARB)により結晶粒超微細化されたニッケルの内部摩擦

  • 小泉 雄一郎
    大阪大学大学院工学研究科知能・機能創成工学専攻
  • 植山 将宜
    大阪大学大学院工学研究科知能・機能創成工学専攻
  • 辻 伸泰
    大阪大学大学院工学研究科知能・機能創成工学専攻
  • 南埜 宜俊
    大阪大学大学院工学研究科知能・機能創成工学専攻
  • 太田 健一
    京都工芸繊維大学工芸学部物質工学科

書誌事項

タイトル別名
  • Internal Friction of Ultrafine-Grained Nickel Produced by Accumulative Roll-Bonding(ARB)
  • クリカエシ カサネ セツゴウ アツエン ARB ニ ヨリ ケッショウリュウ チョウビサイカ サレタ ニッケル ノ ナイブ マサツ

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説明

  Internal friction (Q-1) of nickel sheets highly deformed up to an equivalent strain (ε) of 4.8 by the Accumulative Roll-Bonding (ARB) process was investigated in order to clarify the damping mechanism of the ultrafine-grained materials produced by severe plastic deformation. Although the strength increased with increasing number of the ARB cycle (N), the maximum value of Q-1 was obtained at N=4 (ε=3.2). At relatively small ε about 1, where dislocation cell structure was formed, relatively small Q-1 below 5×10-3 was obtained. The dislocations within the cell walls appeared to be tightly pinned at high density of nodes or other dislocations. In the middle range of ε, where the ultrafine grains having diameter lager than 0.2 μm were formed, a high valued of Q-1 greater than 5×10-3 was obtained. In the ultrafine grains, dislocations without the pinning by nodes or other dislocations were observed. At the largest ε of 4.8, where the grain size was as small as 0.15 μm, the Q-1 was smaller than 4×10-3. The distance of the dislocation motion under vibration stress seemed to be small due to the fine grain size. The change in the Q-1 with number of the ARB cycles was attributed to the changes in the dislocation density and the distance of dislocation motion under vibrating stress which is controlled by the pinning points and the grain boundaries.<br>

収録刊行物

  • 日本金属学会誌

    日本金属学会誌 69 (11), 997-1003, 2005

    公益社団法人 日本金属学会

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