Orientation Dependent Recovery in Interstitial Free Steel
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概要
- 論文の詳細を見る
Cold rolled (40, 60 and 80% thickness reductions from hot-band) interstitial free (IF) steel samples were recovered at 500°C for different times (15 min to 32 h). The recovery kinetics, studied through a combination of X-ray line profile analysis and high resolution electron diffraction, were best represented by logarithmic relationship. Though the kinetics was dependent on the prior deformation, γ (ND//<111>) fibre clearly had stronger recovery than θ (ND//<100>) fibre. Recovery was observed, statistically to create grain interior strain localizations: an orientation independent phenomenon. Increase in misorientation across such strain localizations was, however, orientation dependent. This was responsible for enhanced in-grain misorientation in recovered γ-fibre grains/bands. Extended recovery of 80% pre-deformed samples also led to coarsening of γ-fibre bands: strain induced boundary migration (SIBM) or uniform movement of γ-fibre boundaries into neighbouring non γ-fibre orientations.
- The Iron and Steel Institute of Japanの論文
著者
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SHEKHAWAT Satish
Department of Metallurgical Engineering and Materials Science
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KHATIRKAR Rajesh
Department of Metallurgical and Materials Engineering, Visvesvaraya National Institute of Technology
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VADAVADAGI Basavaraj
Department of Metallurgical Engineering and Materials Science
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HALDAR Arunansu
RD & T, Tata Steel Europe, Swinden Technology Centre
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Shekhawat Satish
Department of Metallurgical Engineering and Material Science, IIT Bombay
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Samajdar Indradev
Department of Metallurgical Engineering and Material Science, IIT Bombay
関連論文
- Structural and Wear Characterization of Heat Treated En24 Steel
- Magnetic Properties in Deformed Grain Oriented Electrical Steel: On the Role of Strain Hardening Exponent and Microstructural Developments
- ND// Recrystallization in Interstitial Free Steel : The Defining Role of Growth Inhibition
- Orientation Dependent Recovery in Interstitial Free Steel
- Effect of Mode of Rolling on Recrystallization Kinetics and Microstructure Evolution in Interstitial Free High Strength Steel Sheet
- Structural and Wear Characterization of Heat Treated En24 Steel
- Orientation Dependent Recovery in Interstitial Free Steel
- ND// Recrystallization in Interstitial Free Steel: The Defining Role of Growth Inhibition
- Magnetic Properties in Deformed Grain Oriented Electrical Steel : On the Role of Strain Hardening Exponent and Microstructural Developments
- Effect of Mode of Rolling on Recrystallization Kinetics and Microstructure Evolution in Interstitial Free High Strength Steel Sheet