期刊文献+

脱磷铁水-110t AOD-LF-CC-热轧流程304不锈钢中夹杂物的演变 被引量:5

Evolution of Inclusions in Stainless Steel 304 during Dephosphorized Hot Metal-110 t AOD-LF-CC-Hot Rolling Process
下载PDF
导出
摘要 通过扫描电镜、能谱仪和电解分析研究了在110 t AOD-LF-中间包-160 mm板坯-连铸-热轧板卷生产过程304不锈钢(/%:0.03~0.04C、0.39~0.41Si、1.20~1.23Mn、0.014~0.016P、0.001~0.002S、7.95~8.00Ni、18.06~18.20Cr、0.003~0.004Al、0~0.002Ti)中夹杂物类型、形貌和成分。结果表明,在每一生产阶段都出现5~10μm球形SiO_2-CaO-MgO-Al_2O_3型夹杂,同时在AOD出钢过程产生20μm MnO-Cr_2O_3型夹杂,LF过程去除一部分MnO-Cr_2O_3夹杂,中间包和正常浇铸的铸坯中很少出现;但两炉连浇的铸坯易出现MnO-Cr_2O_3夹杂,热轧板中MnO-Cr_2O_3夹杂尺寸≤5μm。电解分析结果表明,两炉连浇铸坯中夹杂物数量(4.65 mg/10 kg)比正常浇铸的铸坯(3.08 mg/10 kg)增加了51%。 Type, morphology and ingredient of inclusions in stainless steel 304 (/% : 0. 03 -0. 04C, 0. 39 -0. 41Si, 1.20 - 1.23Mn, 0. 014 - 0. 016P, 0. 001 - 0. 0025, 7.95 - 8.00Ni, 18.06 - 18.20Cr, 0. 003 - 0. 004A1, 0 - 0. 002Ti) during 110 t AOD-LF-tundish-160 mm slab casting-hot rolling strip coil process have been studied by SEM, energy disper- sive X-ray spectrometer and analysis by electrolysis. Results show that the 5 - 10 μm spheroidal SiO2-CaO-MgO-A1203 type inclusions occur in each steelmaking process, while the 20μm MnO-Cr2 03 inclusions form in tapping process of AOD, part of which is removed in LF refining process, and they less occur in liquid in tundish and in normal casting slab, but the MnO-Cr2O3 inclusions easily occur in two heats sequence-casting slab, the size of MnO-Cr2O3 inclusion in hot-rolled strip coil is ≤5 μm. Electrolytic analysis results show that the inclusion amount in two heats sequence-casting slab (4. 65 mg/10 kg) increases by 51% as compared with that in normal casting slab (3.08 mg/10kg).
出处 《特殊钢》 北大核心 2013年第1期41-44,共4页 Special Steel
关键词 304不锈钢 脱磷铁水-AOD-LF—CC-热轧 夹杂物演变 Stainless Steel 304, Dephosphorized Hot Metal-AOD-LF-CC-Hot Rolling, Inclusion Evolution
  • 相关文献

参考文献5

二级参考文献41

  • 1Shinme,K,周国忠.顶吹喷粉去除杂质[J].国外钢铁,1994,19(4):21-26. 被引量:5
  • 2王贵平,范红军,尹嵬.太钢AOD精炼技术的发展[J].不锈,2006(2):14-18. 被引量:1
  • 3Yoshio Inagaki, Motoshi Shinkai, Masahide Tsuno. Charac teristics and Operating Improvements of 70 t VCR at Chita Plant, Daido Steel Co., Ltd. [J]. Electric Furnace Steel, 1995, 66(1):11.
  • 4Hidetoshi Matsuno, Yoshiteru Kikuchi, Masami Komatsu. Development of New Deoxidation Technigue Pressure Eleva- ting and Reducing Method in RH Degasser[J]. Steelmaking Conference Proceedings, 1993, 76:123.
  • 5Hojo Masatake, Nakao Ryuji, Umezaki Tsuyoshi. Oxide Inclusion Control in Ladle Stainless Steel and Tundish for Producing Clean Stainless Steel[J]. ISIJ International, 1996,36 (s) : S128.
  • 6Kim D S, Park J H, Park J H, et al. Improvement of Clean- liness of 16% Cr Ferritic Stainless Steel in AOD Processes [J]. La Revue de Metallurgie CIT, 2004(4) : 291.
  • 7Kitamur Toshihiro, Miyamot Kenichiro. Mathematical Reac tion Model for Nitrogen in Vacuum Degasser Desorption and Decarburization Reaction in Vacuum Degasser[J]. ISIJ Inter national, 1996, 36(4): 395.
  • 8Xu Yingtie, Chen Zhaoping, Zhang Ge. Kinetic Model of De- carburization and Denitrogenation in Vacuum Oxygen Decar- burization Process for Ferritic Stainless Steel[J]. Metallurgi cal and Materials Transactions B, 2009,40B(6) :345.
  • 9Hajime Amano, Akihiro Nagatani, Jun Eguchi. Development of Refining Technology in Sainless Steel[J]. Electric Furnace Steel, 2003, 74(1):49.
  • 10Shen C F, Shi Q L. Calculating Model Establishing and Ap plication of Nitriding and Denitriding to 304 Stainless Steel in AOD[C]//Materials Science and Technology 2009 Confer ence and Exhibition. Pittsburgh, 2009 : 1256.

共引文献67

同被引文献41

引证文献5

二级引证文献6

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部