Solid particle impact erosion of alumina-based refractories at elevated temperatures

Solid particle erosion tests have been conducted on three different alumina-based refractories at elevated temperatures up to 1400 °C, using sharp SiC particles between 325 and 830 μm in diameter. The impact speed is 50 m/s and the impact angle is varied between 30° and 90°. The objective of this st...

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Published inJournal of the European Ceramic Society Vol. 32; no. 2; pp. 283 - 289
Main Authors Yang, Jing-Zhou, Fang, Ming-Hao, Huang, Zhao-Hui, Hu, Xiao-Zhi, Liu, Yan-Gai, Sun, Hao-Ran, Huang, Jun-Tong, Li, Xiao-Chao
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.02.2012
Subjects
Aggregates
Al 2O 3
Aluminous refractories
Aluminum oxide
Binders
Composites
Erosion
Erosion resistance
Impact angle
Refractories
Silicon carbide
Surface
Wear resistance
Composites
Wear resistance
Refractories
Al 2O 3
Surface
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Abstract Solid particle erosion tests have been conducted on three different alumina-based refractories at elevated temperatures up to 1400 °C, using sharp SiC particles between 325 and 830 μm in diameter. The impact speed is 50 m/s and the impact angle is varied between 30° and 90°. The objective of this study is to ascertain the effects of temperature and impact angle on the erosion resistance of alumina refractories. The experimental results reveal that the alumina-based refractories, in general, exhibit increasing erosion resistance with increasing temperature and decreasing impact angle, with the minimum erosion rate at 1200 °C and 30° impact angle. Chrome corundum refractory brick is the most resistant to vertical erosion, due to its highest alumina content, and associated hardness and density, as well as strongly bonded aggregate and binder phase. The primary material removal mechanisms are fracture and chipping of binder phase and aggregate, as well as aggregate pull-out.
AbstractList Solid particle erosion tests have been conducted on three different alumina-based refractories at elevated temperatures up to 1400 °C, using sharp SiC particles between 325 and 830 μm in diameter. The impact speed is 50 m/s and the impact angle is varied between 30° and 90°. The objective of this study is to ascertain the effects of temperature and impact angle on the erosion resistance of alumina refractories. The experimental results reveal that the alumina-based refractories, in general, exhibit increasing erosion resistance with increasing temperature and decreasing impact angle, with the minimum erosion rate at 1200 °C and 30° impact angle. Chrome corundum refractory brick is the most resistant to vertical erosion, due to its highest alumina content, and associated hardness and density, as well as strongly bonded aggregate and binder phase. The primary material removal mechanisms are fracture and chipping of binder phase and aggregate, as well as aggregate pull-out.
Solid particle erosion tests were conducted on three different alumina-based refractories, at elevated temperatures up to 1400 C, using sharp SiC particles between 325 and 830 micron in diameter. The impact speed was 50 m/s and the impact angle was varied between 30 and 90 degrees. The effects of temperature and impact angle on the erosion resistance of the alumina refractories were investigated. The results revealed that the alumina-based refractories, in general, exhibited increasing erosion resistance with increasing temperature and decreasing impact angle, with a minimum erosion rate at 1200 C and 30 degrees impact angle. Chrome corundum refractory bricks were the most resistant to vertical erosion, due to their higher alumina content, and associated hardness and density, and a strongly bonded aggregate and binder phase. The primary material removal mechanisms are fracture and chipping of the binder phase and aggregate and aggregate pull-out.
Author Li, Xiao-Chao
Huang, Zhao-Hui
Liu, Yan-Gai
Sun, Hao-Ran
Yang, Jing-Zhou
Fang, Ming-Hao
Hu, Xiao-Zhi
Huang, Jun-Tong
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Keywords Composites
Wear resistance
Refractories
Al 2O 3
Surface
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Snippet Solid particle erosion tests have been conducted on three different alumina-based refractories at elevated temperatures up to 1400 °C, using sharp SiC...
Solid particle erosion tests were conducted on three different alumina-based refractories, at elevated temperatures up to 1400 C, using sharp SiC particles...
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SubjectTerms Aggregates
Al 2O 3
Aluminous refractories
Aluminum oxide
Binders
Composites
Erosion
Erosion resistance
Impact angle
Refractories
Silicon carbide
Surface
Wear resistance
Title Solid particle impact erosion of alumina-based refractories at elevated temperatures
URI https://dx.doi.org/10.1016/j.jeurceramsoc.2011.08.017
https://www.proquest.com/docview/1671304569
Volume 32
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