Effect of Initial Structure on Microstructure Change during Cold Rolling in an Ultra-low Carbon Steel
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概要
- 論文の詳細を見る
- 2003-03-01
著者
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MAKI T.
Department of Materials Science and Engineering, Kyoto University
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Morito Shigekazu
Department Of Material Science Shimane University
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Morito Shigekazu
Department Of Materials Science And Engineering Kyoto University
関連論文
- Effect of carbon content on ausformed bainite structure in Fe-Ni-C alloys
- Effect of Austenite Grain Size on the Morphology and Crystallography of Lath Martensite in Low Carbon Steels
- Effect of transformation temperature and C content on the crystallographic feature of upper bainite
- Comparison of the dislocation substructure between the cold-rolled lath martensite and equiaxed ferrite in IF steel
- Characteristics of Retained Austenite in Quenched High C-High Cr Alloy Steels
- Shape-Strain Analysis of Martensite in Ceria-Doped Zirconia
- Multiphase Crystallography in the Nucleation of Intragranular Ferrite on MnS+V(C, N) Complex Precipitate in Austenite
- Nucleation of Proeutectoid Ferrite on Complex Precipitates in Austenite
- Kinetics and Crystallography of Intragranular Pearlite Transformation Nucleated at (MnS+VC) Complex Precipitates in Hypereutectoid Fe-Mn-C Alloys
- Deformation Microstructure and Tensile Strength of Cold Rolled Pearlitic Steel Sheets
- The Origin of Midrib in Lenticular Martensite
- Effect of Mn and Si Addition on Microstructure and Tensile Properties of Cold-rolled and Annealed Pearlite in Eutectoid Fe-C Alloys
- Effect of ausforming on bainite structure in an Fe-Ni-C alloy
- Control of Cementite Precipitation in Lath Martensite by Rapid Heating and Tempering
- Ultra-fine (α+θ) Duplex Structure Formed by Cold Rolling and Annealing of Pearlite
- Effect of Initial Structure on Microstructure Change during Cold Rolling in an Ultra-low Carbon Steel
- Dislocation Density within Lath Martensite in Fe-C and Fe-Ni Alloys
- Effect of Carbon and Nickel Contents on Dislocation Structure in Ferrous Lath Martensite
- Austenite Grain Refinement by Repeated Cycles of Austenitizing and Quenching
- Carbon Enrichment in Retained Austenite Films in Low Carbon Lath Martensite Steel
- Variant Selection of Low Carbon High Alloy Steel in an Austenite Grain during Martensite Transformation