FR2735767A1 - Preparation of granulated steel process slag for use in hydraulic cements or road surfaces - Google Patents

Abstract

A process for the preparation of granulates, esp. for use in civil engineering, starting with steel converter slag from an oxygen-blowing steel process comprises physical preparation to obtain the required granulometry for the use, esp. by crushing, screening and separation into granulate fractions. The novelty is that the thus prepared granulate is treated in an atmosphere enriched with carbon-containing gas. Also claimed is a hydraulic cement composition contg. at least 18 wt. % of the granulate prepared as above.

Description

Process for the preparation of aggregates, in particular for use in civil engineering, from slag from oxygen-converting steelworks
The invention relates to a process for the preparation of aggregates from slag for the conversion of steel to oxygen.

 In general, aggregates are used for example for the preparation of hydraulic concretes or for the preparation of coating compositions, in particular road coatings.

 The preparation of aggregates, in particular their particle size, depends on the intended application.

For the physical preparation of the aggregates to the required particle size, it is generally carried out by crushing, screening and separation into particle size fractions,
It is known to produce aggregates from slag from blast furnaces, as described for example in patent FR 2,668,474.

 It is possible, by the same process, to develop hydraulic gravels, in particular for the realization of earthworks or underpasses of roadways.

 However, the aggregates produced according to this process from slag from conversion of steel to oxygen generally tend to swell under the effect of humidity, which makes them unsuitable for the preparation of concrete, mixes or serious.

 These oxygen steel conversion slags are generally designated under the name of slag L.D. (Linz-Donovitz).

 Document FR 2 630 432 describes however a hydraulic concrete composition incorporating slag L.D. and not having this swelling drawback.

 This result is achieved by crushing the slag LD to a particle size fine enough to pass to the mesh of 2 mm, by strongly limiting its proportion to 18% at most in the concrete composition, and by carefully dosing an additive rich in alumina and poor in alkaline earth to add to the composition.

 However, these constraints in terms of preparation of the aggregate and composition of the concrete are costly and limit the outlets for L.D.

 Document FR 2 481 264 also describes a coating composition incorporating slag L.D. (and very little lime) and does not have this swelling drawback.

 But this result is also achieved at the cost of new composition constraints.

 To reduce the risks of swelling of civil engineering works produced from L.D. slag, it has also been proposed, after crushing, to store them in the open air for periods of several months.

 But this prolonged storage remains a costly operation which, moreover, only imperfectly solves the problem of swelling.

 The object of the invention is to control the risk of swelling of an LD slag-based aggregate without the need for prolonged storage or particular constraints for use in civil engineering, in particular for the preparation of a concrete, of a composition. coating or serious hydraulics.

 To this end, the invention relates to a process for the preparation of aggregates, in particular for use in civil engineering, from slag from an oxygen conversion steelworks, in which said slag is physically prepared to obtain the required particle size for said use, in particular by crushing, screening and separation into particle size fractions, characterized in that the slag thus prepared is then treated under an atmosphere enriched in carbon dioxide.

 Preferably, the carbon dioxide content of said atmosphere is greater than 5%.

 The invention also relates to a hydraulic concrete composition containing a proportion of slag from oxygen conversion steelworks greater than 18% by weight.

 The invention will be better understood on reading the description which follows, given by way of example.

 In a conventional physical processing installation, the slag L.D. is crushed, it is screened and the product obtained is separated into different particle size fractions; in a manner known in itself, the physical treatment is adapted to the intended uses of the slag as an aggregate.

 At the exit from the physical treatment installation, immediately or deferred, the product obtained is passed through a confined treatment enclosure.

Said treatment enclosure may be in the form of a ventilated tunnel and crossed by a conveyor belt for transferring the product to be treated
The product is passed through the tunnel while ventilating it with a treatment gas, which, according to the invention, is a gas enriched in carbon dioxide, compared to the normal content of air.

 According to the invention, the carbonation of the product results in the formation of a waterproofing crust on the surface of the grains.

 Care should therefore be taken not to re-grind the aggregates after the carbonation treatment so as not to break the protective crust.

 Preferably, the carbon dioxide content of the treatment gas is greater than 5%.

 The minimum duration of treatment under an atmosphere enriched in carbon dioxide is determined, for example by a prior study in the laboratory on samples of product resulting from physical treatment.

 The preliminary study in the laboratory can in particular be based on swelling tests.

 It is considered, for example, that the minimum duration of treatment under an atmosphere enriched in carbon dioxide is reached when the open porosity of the samples with water vapor is less than a predetermined threshold.

 The maximum permissible porosity threshold is determined by swelling tests suited to the intended use of the aggregates.

 Advantageously, the treatment gas is a combustion gas, recovered at the outlet of burning installations or boilers close to the treatment enclosure.

 Advantageously, the treatment gas is hot and / or also contains water vapor.

 Without departing from the invention, other conventional installations can be envisaged for treating the product under an atmosphere enriched in carbon dioxide.

 According to a variant of the invention, part of the physical slag treatment installation is confined in an enclosure where said treatment gas is circulated; preferably, this confined part is located downstream in the treatment installation.

 According to this variant, it is no longer necessary to treat the product at the outlet of the physical treatment installation.

 Thus, thanks to the method for preparing aggregates according to the invention which comprises confinement under an atmosphere enriched in carbon dioxide, and preferably containing water vapor, the aggregates are stabilized and the risk of swelling of the materials incorporating is controlled. these aggregates, even though they come from LD slag

 Compared with the solutions of the prior art to limit these risks of swelling, the invention provides an economical and more effective solution against the risk of swelling.

 According to the invention, there is no upper limit, on the one hand to the size of the granule based on slag L.D., on the other hand to its proportion in the concrete composition.

 It is known in fact that in the case of aggregates prepared from LD slags and the materials which integrate them, it is the slow hydration of the lime internal to the aggregates which causes the materials to swell, under the effect of the vapor. of water entering it through open pores on the surface.

 Thanks to the process according to the invention, an LD slag-based aggregate formed of particles is obtained, the surface of which has a high impermeability to water vapor, which makes it possible to control the risk of swelling whatever the size of the grains. .

Contrary to the LD dairy aggregates of the prior art, it then becomes possible according to the invention to prepare dairy aggregates
LD of large grain size, which have good dimensional stability characteristics (control of swelling) even though they would not pass through the 2 mm mesh.

 Thanks to the process according to the invention, it is also possible to prepare concrete compositions containing a proportion by weight of slag L.D.

greater than 18% without risk of swelling.

 The invention therefore opens new outlets for slag converting steel to oxygen in the field of civil engineering and contributes to an improvement of the environment by reducing the stocks, or even the discharges, of this type of slag.

Claims (3)

 1.- Process for the preparation of aggregates, in particular for use in civil engineering, from slag from oxygen-converting steelworks, in which said slag is physically prepared to obtain the particle size required for said use, in particular by crushing, screening and separation into particle size fractions, characterized in that the slag thus prepared is then treated under an atmosphere enriched in carbon dioxide.  2.- Method according to claim 1 characterized in that the carbon dioxide content of said atmosphere is greater than 5%.  3. Composition of hydraulic concrete containing a slag granulate for conversion of steel to oxygen obtained by a process according to claim 1 or 2, characterized in that the proportion by weight of said slag in said composition is greater than 18%.