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Formation mechanism and control of MgO·Al_2O_3 inclusions in non-oriented silicon steel
On the basis of the practical production of non-oriented silicon steel, the formation of Mg O·Al2O3 inclusions was analyzed in the process of "basic oxygen furnace(BOF) → RH → compact strip production(CSP)". The thermodynamic and kinetic conditions of the formation of Mg O·Al2O3 inclusions were disc...
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| Published in: | 矿物冶金与材料学报:英文版 2014, Vol.21 (11), p.1068-1076 |
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| creator | Yan-hui Sun Ya-nan Zeng Rui Xu Kai-ke Cai |
| description | On the basis of the practical production of non-oriented silicon steel, the formation of Mg O·Al2O3 inclusions was analyzed in the process of "basic oxygen furnace(BOF) → RH → compact strip production(CSP)". The thermodynamic and kinetic conditions of the formation of Mg O·Al2O3 inclusions were discussed, and the behavior of slag entrapment in molten steel during RH refining was simulated by computational fluid dynamics(CFD) software. The results showed that the Mg O/Al2O3 mass ratio was in the range from 0.005 to 0.017 and that Mg O·Al2O3 inclusions were not observed before the RH refining process. In contrast, the Mg O/Al2O3 mass ratio was in the range from 0.30 to 0.50, and the percentage of Mg O·Al2O3 spinel inclusions reached 58.4% of the total inclusions after the RH refining process. The compositions of the slag were similar to those of the inclusions; furthermore, the critical velocity of slag entrapment was calculated to be 0.45 m·s^-1 at an argon flow rate of 698 L·min^-1, as simulated using CFD software. When the test steel was in equilibrium with the slag, [Mg] was 0.00024wt%–0.00028wt% and [Al]s was 0.31wt%–0.37wt%; these concentrations were theoretically calculated to fall within the Mg O·Al2O3formation zone, thereby leading to the formation of Mg O·Al2O3 inclusions in the steel. Thus, the formation of Mg O·Al2O3 inclusions would be inhibited by reducing the quantity of slag entrapment, controlling the roughing slag during casting, and controlling the composition of the slag and the Mg O content in the ladle refractory. |
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The thermodynamic and kinetic conditions of the formation of Mg O·Al2O3 inclusions were discussed, and the behavior of slag entrapment in molten steel during RH refining was simulated by computational fluid dynamics(CFD) software. The results showed that the Mg O/Al2O3 mass ratio was in the range from 0.005 to 0.017 and that Mg O·Al2O3 inclusions were not observed before the RH refining process. In contrast, the Mg O/Al2O3 mass ratio was in the range from 0.30 to 0.50, and the percentage of Mg O·Al2O3 spinel inclusions reached 58.4% of the total inclusions after the RH refining process. The compositions of the slag were similar to those of the inclusions; furthermore, the critical velocity of slag entrapment was calculated to be 0.45 m·s^-1 at an argon flow rate of 698 L·min^-1, as simulated using CFD software. When the test steel was in equilibrium with the slag, [Mg] was 0.00024wt%–0.00028wt% and [Al]s was 0.31wt%–0.37wt%; these concentrations were theoretically calculated to fall within the Mg O·Al2O3formation zone, thereby leading to the formation of Mg O·Al2O3 inclusions in the steel. Thus, the formation of Mg O·Al2O3 inclusions would be inhibited by reducing the quantity of slag entrapment, controlling the roughing slag during casting, and controlling the composition of the slag and the Mg O content in the ladle refractory.</description><identifier>ISSN: 1674-4799</identifier><identifier>EISSN: 1869-103X</identifier><language>eng</language><subject>Al2O3夹杂 ; MgO ; RH精炼 ; 夹杂物控制 ; 无取向硅钢 ; 机制 ; 碱性氧气转炉 ; 计算流体动力学</subject><ispartof>矿物冶金与材料学报:英文版, 2014, Vol.21 (11), p.1068-1076</ispartof><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Uhttp://image.cqvip.com/vip1000/qk/85313A/85313A.jpg</thumbnail><link.rule.ids>314,776,780,4010</link.rule.ids></links><search><creatorcontrib>Yan-hui Sun Ya-nan Zeng Rui Xu Kai-ke Cai</creatorcontrib><title>Formation mechanism and control of MgO·Al_2O_3 inclusions in non-oriented silicon steel</title><title>矿物冶金与材料学报:英文版</title><addtitle>International Journal of Minerals,Metallurgy and Materials</addtitle><description>On the basis of the practical production of non-oriented silicon steel, the formation of Mg O·Al2O3 inclusions was analyzed in the process of "basic oxygen furnace(BOF) → RH → compact strip production(CSP)". The thermodynamic and kinetic conditions of the formation of Mg O·Al2O3 inclusions were discussed, and the behavior of slag entrapment in molten steel during RH refining was simulated by computational fluid dynamics(CFD) software. The results showed that the Mg O/Al2O3 mass ratio was in the range from 0.005 to 0.017 and that Mg O·Al2O3 inclusions were not observed before the RH refining process. In contrast, the Mg O/Al2O3 mass ratio was in the range from 0.30 to 0.50, and the percentage of Mg O·Al2O3 spinel inclusions reached 58.4% of the total inclusions after the RH refining process. The compositions of the slag were similar to those of the inclusions; furthermore, the critical velocity of slag entrapment was calculated to be 0.45 m·s^-1 at an argon flow rate of 698 L·min^-1, as simulated using CFD software. When the test steel was in equilibrium with the slag, [Mg] was 0.00024wt%–0.00028wt% and [Al]s was 0.31wt%–0.37wt%; these concentrations were theoretically calculated to fall within the Mg O·Al2O3formation zone, thereby leading to the formation of Mg O·Al2O3 inclusions in the steel. Thus, the formation of Mg O·Al2O3 inclusions would be inhibited by reducing the quantity of slag entrapment, controlling the roughing slag during casting, and controlling the composition of the slag and the Mg O content in the ladle refractory.</description><subject>Al2O3夹杂</subject><subject>MgO</subject><subject>RH精炼</subject><subject>夹杂物控制</subject><subject>无取向硅钢</subject><subject>机制</subject><subject>碱性氧气转炉</subject><subject>计算流体动力学</subject><issn>1674-4799</issn><issn>1869-103X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2014</creationdate><recordtype>article</recordtype><recordid>eNqNiz0OgjAYQBujifhzhy_uJCjQ2tEYiYthcWBrGihQU75qWwdP5u7JZPAATu8N701ItN1THm-TtJqOTlkWZ4zzOVl4f0sSyljCIlIV1g0yaIswqLqXqP0AEhuoLQZnDdgWLl35eR-M2JUiBY21efqx96MCWoyt0wqDasBro8cNfFDKrMislcar9Y9LsilO1-M5rnuL3UNjJ-5OD9K9BKVpnuU05-lf0ReSLUND</recordid><startdate>2014</startdate><enddate>2014</enddate><creator>Yan-hui Sun Ya-nan Zeng Rui Xu Kai-ke Cai</creator><scope>2RA</scope><scope>92L</scope><scope>CQIGP</scope><scope>W92</scope><scope>~WA</scope></search><sort><creationdate>2014</creationdate><title>Formation mechanism and control of MgO·Al_2O_3 inclusions in non-oriented silicon steel</title><author>Yan-hui Sun Ya-nan Zeng Rui Xu Kai-ke Cai</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-chongqing_primary_6635456593</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2014</creationdate><topic>Al2O3夹杂</topic><topic>MgO</topic><topic>RH精炼</topic><topic>夹杂物控制</topic><topic>无取向硅钢</topic><topic>机制</topic><topic>碱性氧气转炉</topic><topic>计算流体动力学</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Yan-hui Sun Ya-nan Zeng Rui Xu Kai-ke Cai</creatorcontrib><collection>中文科技期刊数据库</collection><collection>中文科技期刊数据库-CALIS站点</collection><collection>中文科技期刊数据库-7.0平台</collection><collection>中文科技期刊数据库-工程技术</collection><collection>中文科技期刊数据库- 镜像站点</collection><jtitle>矿物冶金与材料学报:英文版</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Yan-hui Sun Ya-nan Zeng Rui Xu Kai-ke Cai</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Formation mechanism and control of MgO·Al_2O_3 inclusions in non-oriented silicon steel</atitle><jtitle>矿物冶金与材料学报:英文版</jtitle><addtitle>International Journal of Minerals,Metallurgy and Materials</addtitle><date>2014</date><risdate>2014</risdate><volume>21</volume><issue>11</issue><spage>1068</spage><epage>1076</epage><pages>1068-1076</pages><issn>1674-4799</issn><eissn>1869-103X</eissn><abstract>On the basis of the practical production of non-oriented silicon steel, the formation of Mg O·Al2O3 inclusions was analyzed in the process of "basic oxygen furnace(BOF) → RH → compact strip production(CSP)". The thermodynamic and kinetic conditions of the formation of Mg O·Al2O3 inclusions were discussed, and the behavior of slag entrapment in molten steel during RH refining was simulated by computational fluid dynamics(CFD) software. The results showed that the Mg O/Al2O3 mass ratio was in the range from 0.005 to 0.017 and that Mg O·Al2O3 inclusions were not observed before the RH refining process. In contrast, the Mg O/Al2O3 mass ratio was in the range from 0.30 to 0.50, and the percentage of Mg O·Al2O3 spinel inclusions reached 58.4% of the total inclusions after the RH refining process. The compositions of the slag were similar to those of the inclusions; furthermore, the critical velocity of slag entrapment was calculated to be 0.45 m·s^-1 at an argon flow rate of 698 L·min^-1, as simulated using CFD software. When the test steel was in equilibrium with the slag, [Mg] was 0.00024wt%–0.00028wt% and [Al]s was 0.31wt%–0.37wt%; these concentrations were theoretically calculated to fall within the Mg O·Al2O3formation zone, thereby leading to the formation of Mg O·Al2O3 inclusions in the steel. Thus, the formation of Mg O·Al2O3 inclusions would be inhibited by reducing the quantity of slag entrapment, controlling the roughing slag during casting, and controlling the composition of the slag and the Mg O content in the ladle refractory.</abstract></addata></record> |
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| subjects | Al2O3夹杂 MgO RH精炼 夹杂物控制 无取向硅钢 机制 碱性氧气转炉 计算流体动力学 |
| title | Formation mechanism and control of MgO·Al_2O_3 inclusions in non-oriented silicon steel |
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