A Mini Review on Refractory Materials
Abstract
physically stable at high temperatures and need to be resistant to thermal shock, should be
chemically inert, and have specific ranges of thermal conductivity and thermal expansion and are
used in linings for furnaces, kilns, incinerators, crucibles and reactors. Aluminium oxide
(alumina), silicon oxide (silica), calcium oxide (lime) magnesium oxide (magnesia) and fireclays
are used to manufacture refractory materials. Zirconia has extremely high temperatures. SiC and
Carbon are also used in some very severe temperature conditions, but cannot be used in oxygen
environment, as they will oxidize and burn.
Keywords: Refractory Materials, Aluminium oxide, silicon oxide, calcium oxide magnesium oxide, fireclays
Full Text:
PDFReferences
ASTM Volume 15.01 Refractories;
Activated Carbon, Advanced
Ceramics.
Refractory Materials for Flame
Deflector Protection System
Corrosion Control: Similar Industries
and/or Launch Facilities Survey -
January 2009 – NASA.
How cool are refractory materials?
(PDF), J Southern Afr Inst Mining
Metal. 2008; 106: 1–16p.
M.P. Groover. Fundamentals of
Modern Manufacturing: Materials,
Processes, and Systems. John Wiley
& Sons; 2010.
ISBN 9780470467008.
Sonntag, Kiss, Banhidi, Weber. New
Kiln furniture solutions for technical
ceramics, Ceram Forum Int. 2009;
(4): 29–34p.
Roza, Greg. Zirconium. The Rosen
Publishing Group; 2009.
H.O. Pierson. Handbook of Chemical
Vapor Deposition (CVD): Principles,
Technology, and Applications.
William Andrew; 1992, 206p.
“Accuratus”. Aluminum Oxide, Al2O3
Ceramic Properties. 2013. Retrieved
November 22, 2014.
The Accelerated Drying of
Refractory Concrete – Parts I and II,
Volume 6, Issues 2 and 4 /The
Refractory Worldforum.
P. Mullinger, B. Jenkins. Industrial
and process furnaces.
O.P. Gupta. Elements of Fuels.
Furnaces and refractories.
Refbacks
- There are currently no refbacks.