Influence of TiN Particle Precipitation State on Static Recrystallisation in Structural Steels
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概要
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This paper studies the influence of different Ti and N contents, which give rise to different precipitation states at the reheating temperatures, on the static recrystallisation of austenite in structural steels. The influence of the precipitation state has been quantified by the changes in the activation energy value (Qx), which measures the greater or lesser facility for grain boundary self-diffusion, the mechanism that is responsible for recrystallisation. A maximum has been obtained for the activation energy which corresponds to the finest precipitate distribution and a Ti/N ratio close to unity, although the excess Ti content in solution also contributes to a considerable increase in Qx. The values obtained for the driving forces of recrystallisation have always been greater than the pinning forces, allowing static recrystallisation to take place irrespective of the chemical composition of the steel and the strain applied.
- 社団法人 日本鉄鋼協会の論文
- 2005-12-15
著者
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Gomez M.
Centro Nacional De Investigaciones Metalurgicas (cenim-csic)
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Vega M.
Centro Nacional De Investigaciones Metalurgicas (cenim)
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VEGA M.
FCC Construction S.A., Research & Development Department
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MEDINA S.
National Centre for Metallurgical Research (CENIM-CSIC)
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QUISPE A.
National University Jorge Basadre
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GOMEZ M.
National Centre for Metallurgical Research (CENIM-CSIC)
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GOMEZ P.
National Centre for Metallurgical Research (CENIM-CSIC)
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Medina S
Centro Nacional De Investigaciones Metalurgicas (cenim-csic)
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Quispe A
Centro Nacional De Investigaciones Metalurgicas (cenim-csic)
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Quispe A.
National Centre For Metallurgical Research (cenim-csic)
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Medina S.
National Center For Metallurgical Research (cenim-csic)
関連論文
- Recrystallization-Precipitation Interaction Study of Two Medium Carbon Niobium Microalloyed Steels
- Influence of TiN Particle Precipitation State on Static Recrystallisation in Structural Steels
- Determination of Critical Temperatures (T_, A_, A_) in Hot Rolling of Structural Steels with Different Ti and N Contents
- Influence of Ti and N Contents on Austenite Grain Control and Precipitate Size in Structural Steels
- Influence of Al and Nb on Optimum Ti/N Ratio in Controlling Austenite Grain Growth at Reheating Temperatures
- Improved Model for Static Recrystallization Kinetics of Hot Deformed Austenite in Low Alloy and Nb/V Microalloyed Ateels
- Determination of Driving and Pinning Forces for Static Recrystallization during Hot Rolling of a Niobium Microalloyed Steel
- Static Recrystallization and induced Precipitation in a Low Nb Microalloyed Steel
- Recrystallization-induced Precipitation Interaction in a Medium Carbon Vanadium Microalloyed Steel
- Modelling of Phase Transformation Kinetics by Correction of Dilatometry Results for a Ferritic Nb-microalloyed Steel
- Influence of the Size and Volume Fraction of TiN Particles on Hot Strength and Dynamic Recrystallisation in Structural Steels