Recrystallisation of Ti IF Steel Investigated with Electron Back-scattering Pattern (EBSP)
スポンサーリンク
概要
- 論文の詳細を見る
The deformed structure of cold rolled IF steels consists of a large number of α fibre and γ fibre oriented grains and a small number of (110)<110> oriented grains, each with a distinctive grain shape, subgrain structure, hardness and etching appearance. Early nucleation occurs mainly in γ fibre grains and (110)<110> grains. The texture of the early nuclei consists of a γ fibre with a spread towards (221)<110> together with a weak <100>// ND fibre. Numerous nuclei develop within a single deformed grain. α fibre grains are consumed only after 70% of the materials is recrystallised.
- 社団法人 日本鉄鋼協会の論文
- 1996-08-15
著者
-
Vanderschueren Dirk
Ocas Research Centre Of The Sidmar Group
-
Koyama Kazuo
Steel Research Laboratories Nippon Steel Corporation
-
Koyama Kazuo
Steel Products Lab.-1 Steel Research Laboratories Technical Development Bureau Nippon Steel Co. Ltd.
-
Yoshinaga Naoki
Steel Res. Laboratories Nippon Steel Corp.
-
VANDERSCHUEREN Dirk
OCAS, Research Centre of the SIDMAR Group
関連論文
- Factors Affecting Texture Memory Appearing through α→γ→α Transformation in IF Steels
- Deep Drawability of Electro-deposited Pure Iron Having an Extremely Sharp //ND Texture
- Comparison of the Dislocation Density in Martensitic Steels Evaluated by Some X-ray Diffraction Methods
- Incomplete Recrystallization and Subsequent Microstructural Evolution during Intercritical Annealing in Cold-rolled Low Carbon Steels
- Recrystallisation of Ti IF Steel Investigated with Electron Back-scattering Pattern (EBSP)
- Texture Evolution of IF Steel Due to Recrystallization
- Fatigue properties of high strength steels containing retained austenite