Effects of Pre-exsisting Boundaries on Microstructure Obtained by Plasma-nitriding of Fe-18%Cr Alloy
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概要
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The present authors have studied the plasma-nitriding behavior of Fe–high Cr alloys and reported that ferrite grains are newly formed by holding the strict Σ9 coincide site lattice (CSL) relation with respect to the original ferrite grain [G. Miyamoto et al., Acta Mater. 54 (2006), 4771]. In this study, effects of pre-exsiting grain boundaries on the growth behavior of the newly formed ferrite grains in the plasma-nitriding of an Fe–18mass%Cr alloy is investigated by means of electron backscatter diffraction analysis. The growth of newly formed ferrite grains is mostly stopped at pre-existing boundaries misoriented larger than 5 degrees because of losing the Σ9 CSL relation at the boundaries. Instead, ferrite grains nucleate at such boundaries by holding the Σ9 CSL relationships with respect to the ferrite grain in front. By two-step nitriding, it is confirmed that ferrite grains can nucleate even inside of grains without a presence of grain boundaries or the free specimen surface.
- 2009-11-15
著者
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Maki Tadashi
Nippon Steel Co.
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FURUHARA Tadashi
Institute for Materials Research, Tohoku University
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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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Tanaka Yusuke
Kyoto University
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YONEMOTO Atsushi
Kyoto University
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MAKI Tadashi
Kyoto University
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Furuhara Tadashi
Inst. For Materials Res. Tohoku Univ.
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Miyamoto Goro
Inst. For Materials Res. Tohoku Univ.
関連論文
- PREFACE
- Special Issue on New Functions and Properties of Engineering Materials Created by Designing and Processing
- 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
- Microstructure and Growth Kinetics of Nitrided Zone in Plasma-nitrided Fe-Cr Alloys
- Effect of Cooling Rate on Superelasticity and Microstructure Evolution in Ti-10V-2Fe-3Al and Ti-10V-2Fe-3Al-0.2N Alloys
- The Origin of Midrib in Lenticular Martensite
- Effects of Si and Cr on Bainite Microstructure of Medium Carbon Steels
- Interphase Precipitation of VC and Resultant Hardening in V-added Medium Carbon Steels
- Reconstruction of Parent Austenite Grain Structure Based on Crystal Orientation Map of Bainite with and without Ausforming
- Model for Predicting Phase Transformation and Yield Strength of Vanadium Microalloyed Carbon Steels
- Model for Predicting Phase Transformation and Yield Strength of Vanadium Microalloyed Carbon Steels
- Effects of Ferrite Growth Rate on Interphase Boundary Precipitation in V Microalloyed Steels
- Comparison of Variant Selection between Lenticular and Lath Martensite Transformed from Deformed Austenite
- Discussion on Strain Accommodation Associated with Formation of LPSO Structure
- PREFACE