Formulation of the Decrease in Dislocation Density of Deformed Austenite Due to Static Recovery and Recrystallization
スポンサーリンク
概要
- 論文の詳細を見る
Decrease in dislocation density (ρ) in deformed austenite of Si-Mn steel and Nb added steels due to static recovery and recrystallization has been investigated. By comparing the flow stress measured at the second pass of a double compression test and the fraction of recrystallized austenite of the specimen quenched at a certain time after deformation, the change in ρ due to static recovery has been separated from the total change of ρ. The change in ρ due to static recovery has been formulated as functions of the concentration of Nb (Nb%), deformation conditions and time after deformation. The recovery process is mainly controlled by the climbing of dislocations in the case of higher deformation and holding temperature (DT) and lower Nb%, while it is mainly controlled by the annihilation of dislocations with opposite Burgers vectors in the case of lower DT and higher Nb%. Recovery is retarded by an increase in austenite grain size, a decrease in DT and an increase in Nb%.
- 社団法人 日本鉄鋼協会の論文
- 1996-04-15
著者
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藤岡 政昭
新日本製鐵(株)鉄鋼研究所
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藤岡 政昭
新日鐵 鉄鋼研究所
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藤岡 政昭
北大理
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Morikawa Hirofumi
Ns Techno-research Co.
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Okamoto Kentaro
Steel Research Laboratories Nippon Steel Corporation
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FUJIOKA Masaaki
Steel Research Laboratory, Nippon Steel Corp.
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YOSHIE Atsuhiko
Kimitsu R & D Laboratory, Nippon Steel Corporation
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FUJITA Takashi
Steel Research Laboratories, Nippon Steel Corporation
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OKAMOTO Kentaro
Nippon Steel Metal Products, Co.
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Yoshie A
Kimitsu R & D Laboratories Technical Development Bureau Nippon Steel Corporation
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Fujita Takashi
Steel Research Laboratories Nippon Steel Corporation
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OKAMOTO Kentaro
Nippon Steel Metal Products Co.
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