$A Prospective Way to Reduce Emissions in Secondary Steel Making Metallurgy by Application of Functionalized Doloma Carbon Refractories$

A Prospective Way to Reduce Emissions in Secondary Steel Making Metallurgy by Application of Functionalized Doloma Carbon Refractories

Doloma and doloma carbon refractories are the standard refractory systems applied in AOD (argon oxygen decarburization) and VOD (vacuum oxygen decarburization) vessels in the secondary metallurgy to produce stainless steel. This refractory system is connected with metallurgical benefits such as high...

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Veröffentlicht in:	International journal of applied ceramic technology 2012-05, Vol.9 (3), p.615-624
Hauptverfasser:	Stein, Volker, Aneziris, Christos G., Guéguen, Erwan, Hill, Keith
Format:	Artikel
Sprache:	eng
Schlagworte:	Binders Carbon Carbon content Doloma Iron and steel making Metallurgy Refractories Titanium dioxide
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container_title	International journal of applied ceramic technology
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creator	Stein, Volker Aneziris, Christos G. Guéguen, Erwan Hill, Keith
description	Doloma and doloma carbon refractories are the standard refractory systems applied in AOD (argon oxygen decarburization) and VOD (vacuum oxygen decarburization) vessels in the secondary metallurgy to produce stainless steel. This refractory system is connected with metallurgical benefits such as high oxidic stability of its oxides, and the ability to bond sulfur from the hot metal. Production and application of carbon‐bonded refractories is directly linked with environmental harmful emissions in the broadest sense. In the center of this work is the aspect of increased residual carbon content of the binder resin due to TiO2 addition. Furthermore, this work has observed the applicability of TiO2‐treated bricks in AOD converter. The increased residual carbon content of the binder resin connected with improved mechanical, physical, and thermomechanical properties due to sub‐micro scaled TiO2 and metallic antioxidant addition offers the feasibility to reduce the total carbon content without downgrading the brick properties. This aspect has not been observed yet, and is of high interest with respect to reduced emissions and environmental friendly refractories. Previous works have investigated the influence of TiO2 on other carbon‐bonded refractory systems, such as alumina carbon and magnesia carbon. As illustrated in this work and previous work, TiO2 is working completely different in the doloma carbon system when compared with other systems.
doi_str_mv	10.1111/j.1744-7402.2011.02685.x
format	Article
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J. Appl. Ceram. Technol</addtitle><description>Doloma and doloma carbon refractories are the standard refractory systems applied in AOD (argon oxygen decarburization) and VOD (vacuum oxygen decarburization) vessels in the secondary metallurgy to produce stainless steel. This refractory system is connected with metallurgical benefits such as high oxidic stability of its oxides, and the ability to bond sulfur from the hot metal. Production and application of carbon‐bonded refractories is directly linked with environmental harmful emissions in the broadest sense. In the center of this work is the aspect of increased residual carbon content of the binder resin due to TiO2 addition. Furthermore, this work has observed the applicability of TiO2‐treated bricks in AOD converter. The increased residual carbon content of the binder resin connected with improved mechanical, physical, and thermomechanical properties due to sub‐micro scaled TiO2 and metallic antioxidant addition offers the feasibility to reduce the total carbon content without downgrading the brick properties. This aspect has not been observed yet, and is of high interest with respect to reduced emissions and environmental friendly refractories. Previous works have investigated the influence of TiO2 on other carbon‐bonded refractory systems, such as alumina carbon and magnesia carbon. 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J. Appl. Ceram. Technol</addtitle><date>2012-05</date><risdate>2012</risdate><volume>9</volume><issue>3</issue><spage>615</spage><epage>624</epage><pages>615-624</pages><issn>1546-542X</issn><eissn>1744-7402</eissn><abstract>Doloma and doloma carbon refractories are the standard refractory systems applied in AOD (argon oxygen decarburization) and VOD (vacuum oxygen decarburization) vessels in the secondary metallurgy to produce stainless steel. This refractory system is connected with metallurgical benefits such as high oxidic stability of its oxides, and the ability to bond sulfur from the hot metal. Production and application of carbon‐bonded refractories is directly linked with environmental harmful emissions in the broadest sense. In the center of this work is the aspect of increased residual carbon content of the binder resin due to TiO2 addition. Furthermore, this work has observed the applicability of TiO2‐treated bricks in AOD converter. 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subjects	Binders Carbon Carbon content Doloma Iron and steel making Metallurgy Refractories Titanium dioxide
title	A Prospective Way to Reduce Emissions in Secondary Steel Making Metallurgy by Application of Functionalized Doloma Carbon Refractories
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