Static and dynamic corrosion behavior of SnO2‐doped AZS slip cast refractory in SLS glass

The corrosion behavior of a tin IV oxide‐doped AZS‐refractory, subject to static and dynamic corrosion testing at 1370˚C in soda‐lime‐silica glass, was studied considering the effect of the microstructural features on corrosion. The refractory was synthesized by slip cast methods through reaction si...

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Published in	International journal of applied ceramic technology Vol. 19; no. 2; pp. 1160 - 1170
Main Authors	Toperesu, Phillip Masimba, Kale, Girish M., Daji, Jafar, Parkinson, David E., Parkinson, Simon
Format	Journal Article
Language	English
Published	Malden Wiley Subscription Services, Inc 01.03.2022
Subjects	Activated sintering alumina Aluminum oxide Angular velocity Corrosion Corrosion effects Corrosion resistance Corrosion tests Forced convection glass corrosion Microstructure Mullite Raw materials Reaction kinetics refractories Silica glass Silicon dioxide Sintering Slip Solid solutions Tin Tin dioxide tin IV oxide Zircon Zirconium Zr(1‐x)Sn(x)O2 solid solution
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Abstract	The corrosion behavior of a tin IV oxide‐doped AZS‐refractory, subject to static and dynamic corrosion testing at 1370˚C in soda‐lime‐silica glass, was studied considering the effect of the microstructural features on corrosion. The refractory was synthesized by slip cast methods through reaction sintering of alumina and zircon raw materials using SnO2 as a sintering agent. SnO2 had a considerable influence in the enhanced alumina/zircon reaction sintering and the subsequently evolved microstructures of an interlocked Zr(1‐x)Sn(x)O2 solid solution reinforced alumina‐mullite composite. The process kinetics of the refractory corrosion followed reasonably well the predicted dependence on the square root of angular velocity under forced convection corrosion. Glass chemical corrosion and erosion of the refractory, under static and dynamic glass conditions, respectively, revealed the Zr(1‐x)Sn(x)O2 solid solution‐rich mullite matrix as providing the most corrosion resistance and glass compatibility.
AbstractList	The corrosion behavior of a tin IV oxide‐doped AZS‐refractory, subject to static and dynamic corrosion testing at 1370˚C in soda‐lime‐silica glass, was studied considering the effect of the microstructural features on corrosion. The refractory was synthesized by slip cast methods through reaction sintering of alumina and zircon raw materials using SnO2 as a sintering agent. SnO2 had a considerable influence in the enhanced alumina/zircon reaction sintering and the subsequently evolved microstructures of an interlocked Zr(1‐x)Sn(x)O2 solid solution reinforced alumina‐mullite composite. The process kinetics of the refractory corrosion followed reasonably well the predicted dependence on the square root of angular velocity under forced convection corrosion. Glass chemical corrosion and erosion of the refractory, under static and dynamic glass conditions, respectively, revealed the Zr(1‐x)Sn(x)O2 solid solution‐rich mullite matrix as providing the most corrosion resistance and glass compatibility.
Author	Kale, Girish M. Daji, Jafar Parkinson, Simon Parkinson, David E. Toperesu, Phillip Masimba
Author_xml	– sequence: 1 givenname: Phillip Masimba surname: Toperesu fullname: Toperesu, Phillip Masimba organization: Parkinson‐Spencer Refractories Ltd – sequence: 2 givenname: Girish M. orcidid: 0000-0002-3021-5905 surname: Kale fullname: Kale, Girish M. email: g.m.kale@leeds.ac.uk organization: University of Leeds – sequence: 3 givenname: Jafar surname: Daji fullname: Daji, Jafar organization: Parkinson‐Spencer Refractories Ltd – sequence: 4 givenname: David E. surname: Parkinson fullname: Parkinson, David E. organization: Parkinson‐Spencer Refractories Ltd – sequence: 5 givenname: Simon surname: Parkinson fullname: Parkinson, Simon organization: Parkinson‐Spencer Refractories Ltd
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References	1993; 34 1990; 47 1977; 26 1988; 29 1984; 67 1965 2011; 31 1992; 139 2018 2005 1972 1964; 47 2003; 29 2008; 354 2021; 41 1981; 64 1991; 6 1956 1955; 54
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Snippet	The corrosion behavior of a tin IV oxide‐doped AZS‐refractory, subject to static and dynamic corrosion testing at 1370˚C in soda‐lime‐silica glass, was studied...
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SubjectTerms	Activated sintering alumina Aluminum oxide Angular velocity Corrosion Corrosion effects Corrosion resistance Corrosion tests Forced convection glass corrosion Microstructure Mullite Raw materials Reaction kinetics refractories Silica glass Silicon dioxide Sintering Slip Solid solutions Tin Tin dioxide tin IV oxide Zircon Zirconium Zr(1‐x)Sn(x)O2 solid solution
Title	Static and dynamic corrosion behavior of SnO2‐doped AZS slip cast refractory in SLS glass
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