方向性電磁鋼板の二次再結晶過程に観察される小角粒界移動
スポンサーリンク
概要
- 論文の詳細を見る
he sluggish migration of low angle grain boundaries was examined with regard to the progress of secondary recrystalhsation in silicon iron processed by the two stage cold rolling method. The Goss secondary grains are frequently surrounded by low angle grain boundaries during their growth. In the present work, the retarded migration was demonstrated by measuring the frequency of grains at the perimeter of the secondary grains that could stunt growth through 'orientation pinning'. The poor migration of Goss secondary grains is concluded to be caused by their reduced mobility. The orientations of the stunting grains were observed to deviate less than 7° from those of the growing secondary recrystallisation grains. Such low angle grain boundaries are expected to be comprised of dislocation arrays and be much less mobile than general boundaries having misorientations of more than about 15°.
- 社団法人日本鉄鋼協会の論文
著者
関連論文
- 多結晶鉄強冷延材の再結晶集合組織形成過程 -II
- 鉄鋼材料のRD//冷延組織の微細構造と再結晶過程の検討
- BCC鉄における強冷延されたRD//組織の再結晶挙動(相変態・材料組織)
- 方向性電磁鋼板の二次再結晶過程に観察される小角粒界移動
- Fe-3%Si0.05%C鋼強冷延材の再結晶集合組織形成過程
- 方向性電磁鋼板の二次再結晶の初期過程粒 - II
- 方向性電磁鋼板の二次再結晶の初期過程粒-I
- 方向性電磁鋼板の二次再結晶過程に観察される小傾角粒界の挙動
- 方向性電磁鋼板の二次再結晶における選択粒成長
- モータコアの鉄損増加に及ぼす磁歪の影響
- Co-Fe材を用いたモータコアの鉄損
- 鉄鋼生産でのオンライン計測用赤外分光装置の開発
- Mechanisms and Modelling of Microstructure/Texture Evolution in Interstitial-free Steel Sheets