Ceramic Composition Binder Suspensions in the Al2O3–SiO2–SiC System and Ceramic Concretes Based Upon Them

Composite binders with an SiC content from 10 to 40% are prepared on the basis of high-alumina chamotte and silicon carbide powder previously dispersed in water. Ceramic concretes are prepared based on highly concentrated ceramic binder suspensions (HCBS) and mullite polydispersed filler by vibratio...

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Published in:Refractories and industrial ceramics Vol. 61; no. 6; pp. 639 - 643
Main Authors: Pivinskii, Yu. E., Skuratov, M. A., Doroganov, V. A., Doroganov, E. A.
Format: Journal Article
Language:English
Published: New York Springer US 01-03-2021
Springer Nature B.V
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Abstract Composite binders with an SiC content from 10 to 40% are prepared on the basis of high-alumina chamotte and silicon carbide powder previously dispersed in water. Ceramic concretes are prepared based on highly concentrated ceramic binder suspensions (HCBS) and mullite polydispersed filler by vibration casting and their properties are studied. Specimens containing 15% SiC have maximum strength in compression (150 MPa) with a firing temperature of 1200°C. Depending on firing temperature (1200 and 1400°C) and SiC content specimen weight gain specifying the degree of SiC oxidation is in the range 0.2 – 2.6%. Increased heat resistance for specimens containing 10% SiC in the matrix system is established.
AbstractList Composite binders with an SiC content from 10 to 40% are prepared on the basis of high-alumina chamotte and silicon carbide powder previously dispersed in water. Ceramic concretes are prepared based on highly concentrated ceramic binder suspensions (HCBS) and mullite polydispersed filler by vibration casting and their properties are studied. Specimens containing 15% SiC have maximum strength in compression (150 MPa) with a firing temperature of 1200°C. Depending on firing temperature (1200 and 1400°C) and SiC content specimen weight gain specifying the degree of SiC oxidation is in the range 0.2 – 2.6%. Increased heat resistance for specimens containing 10% SiC in the matrix system is established.
Author Skuratov, M. A.
Pivinskii, Yu. E.
Doroganov, V. A.
Doroganov, E. A.
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Issue 6
Keywords mullite
compressive strength
ceramic concrete
SiC oxidation
weight gain
heat resistance
HCBS
silicon carbide
Language English
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Snippet Composite binders with an SiC content from 10 to 40% are prepared on the basis of high-alumina chamotte and silicon carbide powder previously dispersed in...
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springer
SourceType Aggregation Database
Publisher
StartPage 639
SubjectTerms Aluminum oxide
Ceramic powders
Ceramics
Chamotte
Characterization and Evaluation of Materials
Chemistry and Materials Science
Composites
Compressive strength
Glass
Heat resistance
Materials Science
Mullite
Natural Materials
North American Industry Classification System
Oxidation
Scientific Research and Development
Silicon carbide
Silicon dioxide
Thermal resistance
Title Ceramic Composition Binder Suspensions in the Al2O3–SiO2–SiC System and Ceramic Concretes Based Upon Them
URI https://link.springer.com/article/10.1007/s11148-021-00534-3
https://www.proquest.com/docview/2522123679
Volume 61
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