DE3610247A1 - BRICKET CONTAINING IRON - Google Patents

Description

Briquette containing iron

The invention relates to briquettes containing metallic iron for use in manufacture of iron and steel, as well as the binder and agglomeration process used to make such briquettes.

In the manufacture of iron and steel, it is common to add certain additives to the furnace, such as various to supply metal-containing products in the form of alloys, such as ferrosilicon. Ferrosilicon usually contains a considerable amount of carbon.

In the briquettes according to the invention, metallized 30 iron, silicon dioxide and carbon make up the composition of a briquette that is very valuable to the Foundry technology and others. Iron and steel manufacturing uses. The briquette avoids the need to use expensive ferrosilicon additives 35 in foundry or steel production technology, in the he is used.

The briquette according to the invention preferably contains metallized iron fines as a basic component in it Composition. The briquettes known up to now contain iron oxide fines. Due to the presence of metallized Fine parts is the energy requirement for melting the briquette according to the invention compared to the, which is required in known briquettes, reduced. Because the iron fines in the metallized state are present, the energy normally required to reduce iron oxide to iron is not Requirement in which the briquettes according to the invention as Feed material can be used.

A theory, to which the present invention is not bound, says that in the inventive Briquette containing iron as a catalyst during the reduction of the silicon dioxide it contains Melting the briquette works. Because the iron in the briquette does not reduce before melting too. needs is external energy requirement naturally reduced.

The patent specifications closest to the subject of the application include U.S. Patents 4,032,352, 4,179,283, 4 395 284, 3 431 103 and 1 134 128.

U.S. Patent 4,032,352 discloses a binder composition for the agglomeration of directly reduced ones Iron fines described to prevent reoxidation of the metallized iron contained therein.

The briquette described therein does not contain granulated silicon dioxide. In addition, after that there is no carbonaceous Reducing agents contained in the briquette to reduce the silicon dioxide. It serves as a binding agent the pitch component contained. It should be noted that water is an essential ingredient in all of it binder compositions described is.

In US Pat. No. 4,179,283, only the briquetting of metal oxides is described and no directly reduced one is used Iron used in this briquette. There are two distinctly different carbon sources, a carbon with a high reactivity and a carbon with a low reactivity, used.

U.S. Patent 4,395,284 states that iron and a binder are optional components rather than essential components represent. In it are porous compacts for use as a feed material for a Electric furnace, the material having a low apparent density and high internal porosity. It is stated therein that up to about 15% of the weight of the silica can be iron particles.

US Pat. No. 3,431,103 describes the manufacture of ferrosilicon using a briquette that has an iron content of only 8%. This iron content is significantly lower than the iron content of the invention Briquette products.

US Pat. No. 1,134,128 describes a ferrous oxide containing 53 to 54.5% silicon. It is stated therein that regular alloys contain 25 to 60% silicon, which corresponds to 38 to 66% silicon dioxide (SiO ₂ ), and which represents significantly more silicon dioxide than is contained in the briquette product according to the invention.

The present invention differs from each of these known briquettes as described above have been, in that the briquettes according to the invention Silicon dioxide, carbon and iron, which is more than 60% metallized, are included when the briquettes can be produced by hot pressing. When the briquettes

are made by cold pressing, a binder such as sodium silicate or a mixture of calcium hydroxide and molasses are used.

The main object of the present invention is to provide an iron-containing briquette which Contains silicon dioxide and which is the more expensive ferrosilicon in various steelmaking and foundry processes can replace.

Another object of the invention is to provide an iron-containing briquette, the silicon dioxide in which the main component is metallized iron fines from a direct reduction furnace.

The briquette according to the invention can either be cold-pressed Briquette, for the production of which a binding agent must be used, or a hot-pressed briquette, no binding agent is required for its production.

For a cold-pressed briquette, the preferred binders are 3 parts lime and 5 parts molasses. The lime for the binder is in the form of hydrated lime, which is calcium hydroxide.

The range of quantities of the components in the hot-pressed briquette is as follows:

50 to 90 percent metallized iron fines 7 to 35 percent silicon dioxide (SiO ₂ ) 5 to 15 percent carbon.

All of these components should be in finely divided form, preferably with a particle size of less than 3 millimeters.

In the production of a cold-pressed briquette, 85 to 99 parts of the mixture are made from the finely divided material mixed with 1 to 15 parts of binder, the optimal cold-pressed briquette being 92 parts of the finely divided Contains material and 3 parts of binder.

The iron-containing briquette according to the invention consists consisting essentially of about 50 to 90% metallized iron, about 7 to about 35% silica, and about 5% up to about 15% carbon. The iron in the composition is in the form of iron fines, preferably by direct reduction of iron oxide and at least 60%, as a rule however, more than 80% are metallized.

The term “metallized” as used here does not mean “coated with a metal” but “almost completely” reduced to the metallic state "to understand, that is, there is always more than 60% in the material and usually more than 80% metal. This metallized iron comes in many forms including Pellets work well as a feed material for steelmaking furnaces such as an electric arc furnace suitable. The silicon dioxide is in finely divided or granulated form and the carbon is preferably a component of a solid fuel such as e.g. coal or coke, alternatively pitch or tar can be used »

The particle size of all components is preferably less than 3 millimeters; it is particularly advantageous however, if the particle size of all components before briquetting is less than 1.5 millimeters.

A particularly advantageous range of components in the briquette is 50 to 70% metallized iron, 15 to 35% silica and 8 to 15% carbon.

be ^ö The above-described mixture can be prepared by Warmbrikettieren at a temperature of at least 6OO ° C and at a pressure of at least 70 bar (1OOO psi) briquetted to form a hot iron-containing briquettes. The pressing step is preferably carried out at a temperature of about 650 to 750.degree.

It is widely believed that cold briquetting The composition expires when 85 to 99 parts by weight of the composition with 1 to 15 parts of a binder

! 5 can be mixed. The preferred binder is one Mixture of calcium hydroxide and molasses roughly equal proportions, the optimal composition being 3 parts lime to 5 parts molasses. Both however, each may be present in an amount of from 30 to 70% of the binder. Alternative binders are sodium silicate, pitch and tars, others are organic or chemical binders and cements.

The briquette product of the present invention is placed in a shaft furnace melter such as a cupola furnace or into another melting furnace. Some of the silica in the briquette becomes during the melting process is reduced and the metallic silicon is used as an alloying element for the molten product available. It can be seen from this that the briquettes according to the invention replace the more expensive ferrosilicon can.

Losses occur in a cupola furnace, which is a smelting furnace rather than a reduction furnace in melt productivity when the reduction of both silica and iron oxide in

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must be carried out in the oven. If only silica needs to be reduced, that is, if the iron oxide has already been reduced to the metallized iron form, the losses in smelting productivity are minimal. In order to reduce silicon dioxide in a briquette, iron must be present.

A briquette consists essentially of metallized, directly reduced iron fines, finely divided or granulated silica, a carbon source such as coke breeze or coal fines, and a binder, such as a mixture of calcium hydroxide and molasses. After the mixture is pressed into a briquette the briquette can be at a low

Temperature, such as 150 to 200 ° C (300 to 40O ⁰ F) _{7, can be} dried or cured to remove any moisture and improve green strength. The green briquette should result in a reduced briquette with a high percentage of silicon, possibly up to 50% by weight.

The following tables list the chemical analyzes of various ferrosilicon compositions with equivalent compared ferrosilica briquettes according to the invention,

Table I. Standard Ferros ilic ium Analysis

Ferrosilicon FeSi 5 FeSi 10 FeSi 25 designation

Fe 94.5% 89.5% 74.5%

Si 5.0 10.0 25.0

c 0.5 0.5 0.5

Table II

Ferrosilica briquette composition of the invention

Ferrosilicon FeSi 5 FeSi 10 FeSi equivalent

Metallized 86.7% 75.9 % 51.6 % iron fines

SiO ₂ 7.8 15.7 33.5

C 5.5 8.4 14.9

Table III

Ferrosilica Briquette Analysis

FeSi 5 FeSi 10 FeSi 25

Fe 73.5% 64.4% 43.7%

FeO 8.3 7.3 4.9

C 6.8 9.5 15.7

SiO ₂ 9.1 16.8 34.3

CaO 0.8 0.7 0.5

other 1.5 1.3 0.9

The briquette can contain additional carbon beyond the stoichiometric requirements _{on in} order to have a part available which acts as fuel to supply the heat of reaction for the reduction and to supply the energy required to heat and melt the reduced iron and silicon to the _above _ Tapping temperature (1500 ° C or about 27OO ° F).

Alternative binders of the matrix type such as coal tar pitch, petroleum asphalt, portland cement, clay or gilsonite, or binders of the film type such as sodium silicate, plastic resins, starch, bentonite or glues, or binders of the chemical type such as hydrated lime and Carbon dioxide, sodium silicate and calcium chloride, or sodium silicate and carbon dioxide, are all suitable binders for the purposes of the present invention.

From the above description it can be seen that with the briquette product according to the invention, its main component directly reduced metallized iron fine parts are for steelmaking and foundry technology Above objects of the invention can be achieved.

It goes without saying that the invention is in no way limited to the preferred embodiments described above limited, but these can be changed and modified in many ways without the Is left within the scope of the present invention.

Claims (20)

Claims 1. Iron-containing briquette product, characterized in that it is essentially consists of 50 to 90% metallized iron, 7 to% silicon dioxide, 5 to 15% carbon and 1.0 to 3.5% other components. 2. Briquette according to claim 1, characterized in that the metallized iron in an amount within of the range from 50 to 70%, the silica in in an amount within the range of 15 to 35 percent and the carbon in an amount within the range from 9 to 15 are present. 3. Briquette according to claim 1 and / or 2, characterized in that that the carbon is present as a component of a solid fuel. * 4. Briquette according to claim 3, characterized in that ■ *. that the carbon is in the form of coke. 5. Briquette according to claim 3, characterized in that the carbon is in the form of charcoal. 6. Briquette according to claim 3, characterized in that that the carbon is in the form of pitch or tar. 7. Briquette according to at least one of claims 1 to 3Q 6, characterized in that the iron in the form of metallized iron fines is present. 8. Briquette according to at least one of claims 1 to 7, characterized in that the particle size of the ge components less than 3 millimeters before briquetting amounts to. 9. Briquette according to claim 8, characterized in that the particle size of the components prior to briquetting is less than 1.5 millimeters. 10. Briquette according to at least one of claims 1 to 9, characterized in that the metallized iron to is at least 60% metallized. 11. Briquette composition, characterized in that it consists essentially of 85 to 99 parts by weight the composition according to at least one of claims 1 to 10 and 1 to 15 parts by weight of a binder . 12. Briquette composition according to claim 11, characterized in that it is used as a binder Contains matrix, film or chemical type. 13. Briquette composition according to claim 12, characterized characterized in that the binder is a film-type selected from the group sodium silicate, synthetic resins, starch, Bentonite and glues. 14. Briquette composition according to claim 12, characterized characterized in that the binder is of the chemical type which is selected from the group of a mixture of calcium hydroxide and Molasses, hydrated lime and carbon dioxide, sodium silicate and calcium chloride and sodium silicate and carbon dioxide. 15. Briquette composition according to claim 14, characterized in that the binder is 30 to 70% calcium hydroxide and contains or consists of 30 to 70% molasses. 16. Briquette composition according to claim 12, characterized characterized in that the binder is of the matrix type selected from of the group pitch, coal tar pitch, petroleum asphalt, portland cement. Clay and gilsonite. 17. A method of molding a warm iron containing Briquettes, characterized in that one 50 to 90% hot metallized iron fines at a temperature of at least 600 ° C, 7 to 35% silicon dioxide and mixing together 5 to 15% carbon and this mixture at a pressure of at least 70 bar (10000 psi) to a warm, iron-containing briquette presses. 18. The method according to claim 17, characterized in that the pressing at a temperature of about 650 to about 75O ° C is carried out. 19. A method for producing an iron-containing briquette, characterized in that one 85 to 99 parts by weight of a mixture consisting of: 50 to 90% metallized iron fines, 7 to 35% silica and 5 to 15% carbon, with 1 to 15 parts by weight of a binder containing only 30 to 70% calcium hydroxide and 30 to 70% molasses contains, mixes. 20. The method according to claim 21, characterized in that that the briquette is also burned or cured at a temperature of 150 to 200 ^{° C.}