What is Calcium aluminate cements
Calcium aluminate cements are cements consisting
predominantly of hydraulic calcium aluminates. Alternative names are
"aluminous cement", "high-alumina cement" and "Ciment
fondu" in French. They are used in a number of small-scale, specialized
applications. Read more on www.highaluminarefractory.com/calcium-aluminate-cement.com
History
The method of making cement from limestone and
low-silica bauxite was
patented in France in 1908 by Bied of the Pavin de Lafarge
Company. The initial development was as a result of the search for a
cement offering sulfate resistance. The cement was called in the French
"Ciment fondu". Subsequently, its other special properties were
discovered, and these guaranteed its future in niche applications. Now there are many manufacturers of such refractory materials online.
Composition
The main active constituent of calcium aluminate cements is monocalcium aluminate (CaAl2O4, CaO · Al2O3,
or CA in the cement chemist notation). It usually contains other calcium
aluminates as well as a number of less reactive phases deriving from
impurities in the raw materials. Rather a wide range of compositions is
encountered, depending on the application and the purity of aluminium source
used.[2] Constituents
of some typical formulations include:
Oxide/Mineral
|
General purpose
|
Buff
|
White
|
Refractory
|
SiO2
|
4.0
|
5.0
|
2.7
|
0.4
|
Al2O3
|
39.4
|
53.0
|
62.4
|
79.6
|
Fe2O3
|
16.4
|
2.0
|
0.4
|
0
|
CaO
|
38.4
|
38.0
|
34.0
|
19.8
|
MgO
|
1.0
|
0.1
|
0.1
|
0
|
Na2O
|
0.1
|
0.1
|
0
|
0
|
K2O
|
0.2
|
0
|
0
|
0
|
TiO2
|
1.9
|
1.8
|
0.4
|
0.1
|
Monocalcium aluminate
|
46
|
70
|
70
|
35
|
Dodecacalcium hepta-aluminate
|
10
|
5
|
0
|
0
|
Monocalcium dialuminate
|
0
|
0
|
17
|
30
|
Belite
|
7
|
5
|
0
|
0
|
Gehlenite
|
4
|
14
|
11
|
1
|
Ferrite
|
24
|
5
|
2
|
0
|
Pleocroite
|
1
|
1
|
1
|
0
|
Wüstite
|
7
|
0
|
0
|
0
|
Corundum
|
0
|
0
|
0
|
33
|
The mineral phases all take the form of solid solutions with somewhat
variable compositions
Manufacture
The cement is made by fusing together a mixture of a
calcium-bearing material (normally calcium oxide from limestone)
and an aluminium-bearing material (normally bauxite for
general purposes, or refined alumina for white and refractory cements). The
liquified mixture cools to a vesicular, basalt-like clinker which
is ground alone to produce the finished product. Because complete melting
usually takes place, raw materials in lump-form can be used. A typical kiln arrangement
comprises a reverberatory furnace provided with a
shaft preheater in which the hot exhaust gases pass upward as the lump raw
material mix passes downward. The preheater recuperates most of the heat in the
combustion gases, dehydrates and de-hydroxylates the bauxite and de-carbonates
the limestone. The calcined material drops into the "cool end" of the
melt bath. The melt overflows the hot end of the furnace into molds in which it
cools and solidifies. The system is fired with pulverized
coal or oil. The cooled clinker ingots are crushed and ground
in a ball-mill. In the case of high-alumina refractory cements,
where the mix only sinters, a rotary kiln can
be used.
For more informations, check: http://highaluminarefractory.com/
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