Model for Predicting Phase Transformation and Yield Strength of Vanadium Microalloyed Carbon Steels
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概要
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An integrated model for predicting recrystallization, phase transformation and yield strength of vanadium-microalloyed carbon steel (V-steel) is developed. Two effects of vanadium addition on recrystallization are assumed: one is the solute-drag effect on mobility of grain boundary, the other is pinning-effect on austenite grain growth due to vanadium carbide (VC) precipitate in austenite. The austenite grain size is considered as the control variable for nucleation density in grain corner, grain boundary, and grain interior during phase transformation. Thermodynamic data for transformation including para-equilibrium of carbon concentration and driving force were calculated using ThermoCalc software. The vanadium addition leads to α/γ-interphase VC precipitation in ferrite, which accelerates the diffusion rate of carbon in austenite at α/γ interface and increases nucleation sites for intragranular ferrite transformation. In consequence, the ferrite fraction and grain size are increased. Brandt model27) is conducted to predict pearlite transformation. The lamellar spacing is considered as a function of carbon concentration and undercooling. The alloying elements, ferrite and pearlite fractions, ferrite grain size, and lamellar spacing were taken into account for predicting strength of V-free steels. Modified Ashby-Orowan equation is then used to calculate the VC precipitation strengthening of V-steels. Using this model the calculated results obtained are in good agreement with experimental results.
著者
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Furuhara Tadashi
Institute For Materials Research Tohoku University
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Miyamoto Goro
Institute For Materials Research Tohoku University
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Umemoto Minoru
Department Of Mechanical Engineering Toyohashi University Of Technology
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Kuo Ho-hung
Department Of Production Systems Engineering Toyohashi University Of Technology
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Sugita Kazuki
Department Of Materials Science And Engineering Kyoto University Graduate School Of Engineering
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- PREFACE
- Special Issue on New Functions and Properties of Engineering Materials Created by Designing and Processing
- Comparison of the Characteristics of Nanocrystalline Ferrite in Fe-0.89C Steels with Pearlite and Spheroidite Structure Produced by Ball Milling
- Characteristics of Microstructure in Ultrahigh Carbon Steel Produced during Friction Stir Welding
- Effects of Pre-exsisting Boundaries on Microstructure Obtained by Plasma-nitriding of Fe-18%Cr Alloy