Method of de-chroming and/or depleting the MgO content of...

Details Method of de-chroming and/or depleting the MgO content of... Method of de-chroming and/or depleting the MgO content of...

1999-04-23

2001-06-26

Andrews, Melvyn (Department: 1742)

Specialized metallurgical processes, compositions for use therei

Processes

Producing or treating free metal

C075S622000, C075S623000, C075S958000, C065S019000, C423S595000

Reexamination Certificate

active

06251160

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to a process for dechroming, and/or depleting the MgO content of, steel slags.
2. Description of Related Art
Slags used as starting products or fluxes in the production of cement have already been proposed several times. From U.S. Pat. No. 4,174,974 it is, for instance, known to react coal slag in the molten state with mineral substances and, in particular, calcium oxide, calcium hydroxide or calcium carbonate in order to produce clinker or cement in that manner. In the same U.S. Pat. No. 4,174,974, the use of blast furnace slag for comparable purposes has already been described. The admixture of slag into a rotary tubular kiln charged with kaolin, bauxite and lime has also been suggested.
Generally, the extensive use of steel slags as fluxes in the production of clinker and cement, is in conflict with the high content of metals different from iron contained in such steel slags. With the increasing use of scrap as a steel production prematerial, the portion of alloying metals in the steel slag has risen. In particular, a high content of chromium largely excludes the use of such slags as raw materials or fluxes. Due to the high toxicity of CrVI salts, only extremely slight amounts of CrVI are tolerated for construction materials.
Another disadvantage of the use of steel slags as fluxes in the production of clinker and cement resides in a usually high MgO content, which may amount to 10 to 15% by weight of the slag. In the hydration of cement, MgO is converted to Mg(OH)2 (brucite), whereby the compressive strength is strongly reduced on account of a volume expansion. For that reason, it is usually anticipated that the MgO content in clinker should not exceed 6% by weight.
SUMMARY OF THE INVENTION
The invention, therefore, aims at dechroming steel slags and/or reducing their MgO content in a simple way, thereby rendering the same apt for use in the production of cement clinker in a simple manner. To solve this object, the process according to the invention essentially resides in that oxygen is introduced into the liquid steel slag to an extent sufficient for converting iron quantitatively to iron oxide and at least 5% by weight of the iron oxide contained in the slag to iron-III-oxide, that the oxidized slag obtained solidifies and is disintegrated, whereupon the paramagnetic portions formed (“magnetite”, Fe
3
O
4
) are magnetically isolated and separated from the dechromed slag. By the liquid steel slag being immediately refined on account of the introduction of oxygen, the residual iron contained in the steel slag, on the one hand, is quantitatively oxidized such that subsequent disintegration, for instance, by granulation in water or by using vapour may be effected without any risk. By the fact that not only the remaining iron is oxidized to iron oxide, but the iron oxide present in the steel slag as iron-II-oxide is additionally converted to iron-III-oxide at least partially, a spinel phase is formed, into which chromium is incorporated almost quantitatively during crystallization. During the solidification of such a steel slag derivative partially oxidized to iron-III, a defined minimum portion of magnetite is thus formed, into whose spinel structure chromium is quantitatively incorporated. On account of its paramagnetic properties, the iron-III-oxide may readily be magnetically separated after disintegration such that a steel slag freed from chromium and no longer containing free iron will be obtained following the magnetic separator. Surprisingly, it was found that beside Cr
2
O
3
, MgO is also incorporated in magnetite to a high degree such that the MgO content may be substantially reduced at the same time by magnetic separation of the magnetite. In case of vanadium-oxide-containing slags it was found that even vanadium is incorporated in the spinel structure to a largely quantitative extent so as to effect enrichment, thus allowing for economic recovery. Such a purified dechromed steel slag derivative is suitable as a charging material for the production of clinker without having to fear too high of a chromate content in the clinker or in cement produced therefrom.
Advantageously, the process according to the invention is carried out in that oxygen is blown into the liquid slag in the form of air and/or pure oxygen. Since liquid slag is charged, such a purification step may be carried out directly in the steel works following steel production while simultaneously obtaining a spinel phase suitable as a starting product for the production of ferrochromium.
According to a preferred further development of the process of the invention, it is proceeded in a manner that oxidation is carried out until the formation of an Fe
3
O
4
content of the slag ranging between 5 and 20% by weight. Thereby, it is ensured that chromium can be magnetically separated quantitatively, since it is quantitatively in-corporated into the spinel structure of the magnetite.
Bearing in mind the fact that an iron-free product is obtained by refining the steel slag with oxygen or air, the slag may be granulated with water and/or vapor after oxidation without any risk, as in correspondence with a preferred further development of the process according to the invention. Metallic iron in that case would involve the risk of the formation of oxyhydrogen gas and hence the risk of explosions.
In order to safeguard that chromium is quantitatively dissolved in the spinel phase, the process according to the invention advantageously is performed in a manner that the basicity of the steel slag is maintained at CaO/SiO
2
values greater than 2.5. Generally Steel slags, have basicities ranging between 2.5 and 4.8, CrVI being nearly insoluble in the calcium-silicate phase with basicities greater than 2.5 and collecting preferably in the spinel crystals. Due to the strong enrichment of chromium in the paramagnetic magnetite spinel phase, that phase may preferably be used as a raw material for the production of chromium after magnetic separation. The dechromed steel slag is suitable, in particular, for use in a rotary tubular kiln for the production of cement clinker.
Usual steel slag compositions may be taken from the Table below, wherein the numerical data are indicated in % by weight and the balance to 100% by weight is constituted by non-determined impurities.
Sample
1
2
3
4
5
6
Average
SiO
2
14.92
13.80
13.26
13.26
14.44
13.91
13.93
Al
2
O
3
7.37
7.01
6.51
6.21
7.70
6.51
6.89
FeO
25.31
25.31
27.02
26.94
25.95
26.09
26.10
CaO
34.10
37.07
37.07
32.18
34.28
34.77
34.91
MgO
6.54
7.54
7.33
6.75
7.38
6.41
6.99
SO
3
0.23
0.26
0.11
0.16
0.19
0.08
0.17
Cr
2
O
3
1.27
1.19
1.22
1.20
1.07
1.01
1.16
Mn
2
O
3
7.00
6.63
6.17
6.54
6.62
6.54
6.58
Na
2
O
0.13
0.12
0.10
0.17
0.14
0.07
0.12
K
2
O
0.02
0.02
0.02
0.03
0.02
0.01
0.02
ZnO
0.07
0.13
0.02
0.02
0.02
0.01
0.05
SrO
0.04
0.04
0.02
0.04
0.04
0.04
0.04
From the usual steel slag compositions, it is readily apparent that a Cr
2
O
3
content of an average of 1.16% by weight allows for the use of only slight amounts of steel slag in conventional clinker production. By carrying out the process according to the invention, the Cr
2
O
3
content may be reduced to values far below the tolerated CrVI content contained in a clinker produced from such a prematerial. In the process according to the invention, the oxidized chromium is quantitatively incorporated in the magnetite and is insoluble in the mineral phase of the slag.
For carrying out magnetic separation, it is advantageous to appropriately disintegrage the slag, mechanical disintegration to particle sizes smaller than 5 cm being sufficient, in principle. The product screened from such a disintegrated oxidized slag may, thus, be immediately separated into a chromium-rich phase and a chromium-free phase by magnetic separation.
The thus produced slag product already exhibits good hydraulic properties and may substitute for the clinker portion in mixed cement by up to 35% without quality losses.


REFERENCES:
patent: 3106447 (1963-10-01), Charrat
patent: 5501721

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