Distinctive Aspects of the Physical Metallurgy of Warm Rolling
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概要
- 論文の詳細を見る
Warm, or ferritic, rolling is gaining in popularity amongst steel makers as a means of cutting the cost of steel production and opening up the window of hot band properties. The current work presents an overview of some of the more unique, but important, metallurgical aspects of the process. These have been highlighted in a number of laboratory studies that have been conducted over the last decade or so and as yet appear not to have been drawn together in a single article. Certain aspects of the industrial practice of warm rolling are also addressed. But it must be noted that these are somewhat sparse in the literature, presumably due to its status as an emerging, as opposed to widely practised, technology.
- 社団法人 日本鉄鋼協会の論文
著者
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Jonas J.
Department Of Metallurgical Engineering Mcgill University
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BARNETT M.
School of Engineering and Technology, Deakin University
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Jonas J
Mcgill Univ. Montreal Can
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Jonas J.
Department Of Materials Engineering Mcgill University
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Barnett M.
School Of Engineering And Technology Deakin University
関連論文
- Effect of Alloying Elements on the Microstructure and Texture of Warm Rolled Steels
- Mathematical Modeling of Mean Flow Stress during the Hot Strip Rolling of Nb Steels
- Mathematical Modeling of the Mean Flow Stress, Fractional Softening and Grain Size during the Hot Strip Rolling of C-Mn Steels
- Formation of {111}and {111}Textures in Cold Rolled and Annealed IF Sheet Steel
- Influence of Ferrite Rolling Temperature on Microstructure and Texture in Deformed Low C and IF Steels
- TEM Characterization of the Recrystallization Behaviour of Warm Rolled Low Carbon Steels Containing Chromium during the Early Stages of Annealing
- Influence of Ferrite Rolling Temperature on Grain Size and Texture in Annealed Low C and IF Steels
- Mathematical Modelling of Mean Flow Stress during the Hot Strip Rolling of Multiply-alloyed Medium Carbon Steels
- Distinctive Aspects of the Physical Metallurgy of Warm Rolling
- Prediction of Interpass Softening from the Strain Hardening Rate Prior to Unloading
- Modelling Texture Change during the Static Recrystallization of a Cold Rolled and Annealed Ultra Low Carbon Steel Previously Warm Rolled in the Ferrite Region
- Dynamic Strain Aging and the Wire Drawing of Low Carbon Steel Rods
- Spreadsheet Modelling of Grain Size Evolution during Rod Rolling
- Kinetics and Critical Conditions for the Initiation of Dynamic Recrystallization in 304 Stainless Steel
- Mapping the Hot Deformation Microstructure of Ni-30Fe Alloy
- FEM Simulation of Deep Drawing of Textured Aluminum Sheets Using Anisotropic Fourth-Order Strain-Tate Potential
- Static and Dynamic Strain Aging at High Temperatures in 304 Stainless Steel
- Effect of Silicon on the Interaction between Recrystallization and Precipitationin Niobium Microalloyed Steels
- Effect of Initial Grain Size on the Static Recrystallization Kinetics of Nb Microalloyed Steels
- Static Recrystallization of Nb and Nb-B Steels under Continuous Cooling Conditions
- Ultrasonic Prediction of r-value in Deep Drawing Steels.
- Gibbs energies of formation of TiS and Ti4C2S2 in austenite.
- Effect of Controlled Rolling on Texture Development in a Plain Carbon and a Nb Microalloyed Steel.
- Influence of Dynamic Recrystallisation on the Tensile Ductility of Steels in the Temperature Range 700 to 1150.DEG.C..