Hot Deformation and Control of Ferrite Microstructure in Ti - killed C - Mn Steels
スポンサーリンク
概要
- 論文の詳細を見る
- 2001-03-01
著者
-
Oh Y
Materials Science And Technology Division Korea Institute Of Science And Technology
-
Oh Y‐j
Korea Inst. Of Sci. And Technol. Seoul Kor
-
SHIM Jae-Hyeok
Materials Science and Technology Division, Korea Institute of Science and Technolorgy
-
OH Young-Joo
Materials Science and Technology Division, Korea Institute of Science and Technolorgy
-
CHO Young
Materials Science and Technology Division, Korea Institute of Science and Technolorgy
-
SHIM Jae-Dong
Materials Science and Technology Division, Korea Institute of Science and Technolorgy
-
Shim Jae-hyeok
Materials Science And Technology Division Korea Institute Of Science And Technology
-
Oh Y
Metal Processing Research Center Korea Institute Of Science And Technology
-
Shim Jae-dong
Materials Science And Technology Division Korea Institute Of Science And Technology
-
Shim J‐d
Materials Science And Technology Division Korea Institute Of Science And Technology
-
Cho Y
Materials Science And Technology Division Korea Institute Of Science And Technology
-
Oh Young
Meatl Processing Research Center Korea Institute Of Science And Technology
-
CHO Young
Materials Science and Technology Division, Korea Institute of Science and Technology
関連論文
- Effects of Titanium and Oxygen Content on Microstructure in Low Carbon Steels
- Hot Deformation and Control of Ferrite Microstructure in Ti-killed C-Mn Steels
- Hot Deformation and Control of Ferrite Microstructure in Ti-killed C-Mn Steels
- Hot Deformation and Control of Ferrite Microstructure in Ti - killed C - Mn Steels
- Non-Metallic Inclusions and Acicular Ferrite in Low Carbon Steel
- Characteristics of Inclusions and Precipitates in Low Carbon Steels
- Hot Deformation and Acicular Ferrite Microstructure in C-Mn Steel Containing Ti_2O_3 Inclusions
- Hot deformation and acicular ferrite microstructure in C-Mn steelcontaining Ti_2O_3inclusions
- Non-metallic inclusions and Acicular Ferrite in Carbon-Manganese Steel
- Chemical Model of the FeCl_3-HCl-H_2O Solutions at 25℃