Design of Advanced Bainitic Steels by Optimisation of TTT Diagrams and T_0 Curves
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概要
- 論文の詳細を見る
Cementite is responsible of the limited application of conventional bainitic steels, however it has been proof that cementite precipitation during bainite formation can be suppressed by the judicious use of silicon in medium carbon steels. In this work, thermodynamic and kinetic models were used to design steels with an optimum bainitic microstructure consisting of a mixture of bainitic ferrite, carbon-enriched retained austenite and some martensite. Using these models, a set of seven carbide free bainitic steels with a 0.3 wt% carbon content were proposed for manufacturing. The work presented here is concerned with the microstructural and mechanical characterisation of the steels manufactured. Except for the steel with the highest content of alloying elements, all the grades present the same microstructure composed of carbide-free upper bainite and retained austenite after hot rolling and a two-steps cooling. Theirs tensile strengths range from 1600 to 1950 MPa while keeping a uniform elongation equal to 4% and a total elongation over 10%. Regarding toughness at room temperature, they match quenched and tempered martensitic steels.
- 社団法人 日本鉄鋼協会の論文
- 2006-10-15
著者
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De Andres
Materalia Research Group Department Of Physical Metallurgy Centro Nacional De Investigaciones Metalu
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Caballero Francisca
Materalia Research Group Department Of Physical Metallurgy Centro Nacional De Investigaciones Metalu
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Garcia De
Consejo Superior De Investigaciones Cientificas (csic) Madrid Esp
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Capdevila Carlos
Materalia Research Group Department Of Physical Metallurgy Centro Nacional De Investigaciones Metalu
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Capdevila Carlos
Solid-solid Phase Transformations Group (materalia) Centro Nacional De Investigaciones Metalurgicas
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Garcia-mateo Carlos
Materalia Research Group Department Of Physical Metallurgy Centro Nacional De Investigaciones Metalu
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SANTOFIMIA Maria
Materalia Research Group, Department of Physical Metallurgy, Centro Nacional de Investigaciones Meta
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GARCIA DE
Materalia Research Group, Department of Physical Metallurgy, Centro Nacional de Investigaciones Meta
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SANTOFIMIA Maria
Netherlands Institute for Metals Research
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Garcia‐mateo C
Materalia Research Group Department Of Physical Metallurgy Centro Nacional De Investigaciones Metalu
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Caballero Francisca
Department Of Physical Metallurgy Centro Nacional De Investigaciones Metalurgicas (cenim) Consejo Su
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Santofimia Maria
Department Of Physical Metallurgy Centro Nacional De Investigaciones Metalurgicas (cenim) Consejo Su
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Santofimia Maria
Materalia Research Group Department Of Physical Metallurgy Centro Nacional De Investigaciones Metalu
関連論文
- Design of Advanced Bainitic Steels by Optimisation of TTT Diagrams and T_0 Curves
- Influence of Deformation and Molybdenum Content on Acicular Ferrite Formation in Medium Carbon Steels
- The Influence of Titanium and Vanadium on Isothermal Growth Kinetics of Allotriomorphic Ferrite in Medium Carbon Microalloyed Steels
- Influence of V Precipitates on Acicular Ferrite Transformation Part 2 : Transformation Kinetics
- Influence of V Precipitates on Acicular Ferrite Transformation Part 1 : The Role of Nitrogen
- Effects of Morphology and Stability of Retained Austenite on the Ductility of TRIP-aided Bainitic Steels
- New Model for the Overall Transformation Kinetics of Bainite : Part 2 : Validation
- New Model for the Overall Transformation Kinetics of Bainite : Part 1 : the Model
- Evolution of Microstructural Banding during the Manufacturing Process of Dual Phase Steels
- Evaluation of Displacive Models for Bainite Transformation Kinetics in Steels
- Time-Temperature-Transformation Diagram within the Bainitic Temperature Range in a Medium Carbon Steel
- Austenite Grain Coarsening Under the Influence of Niobium Carbonitrides
- The Role of Inclusions and Austenite Grain Size on Intragranular Nucleation of Ferrite in Medium Carbon Microalloyed Steels
- Austenite Grain Size Effects on Isothermal Allotriomorphic Ferrite Formation in 0.37C-1.45Mn-0.11V Microalloyed Steel
- Dilatometric Study of Reaustenitisation of High Silicon Bainitic Steels : Decomposition of Retained Austenite
- Simulation of V(CN) Precipitation in Steels Allowing for Local Concentration Fluctuations