NL8002252A - Granulated material contg. filler with latent hydraulic properties - e.g. activated by slaking of calcium oxide in the granulate or by use as heat-absorber in prodn. of calcium hydroxide-contg. prods. - Google Patents

Abstract

A granulated material (I) is claimed which comprises at least a filler bound by an inorganic binder, where the filler comprises, at least in part, a substance having latent hydraulic properties, esp. a pozzolanic material. A method of making this material is also claimed, esp. where calcium oxide, opt. mixed with silica, is present and the slaking of the CaO with water provides the heat required to activate the pozzolanic material, esp. fly ash. Also claimed are a method and appts. for producing a calcium hydroxide- contg. product in which heat absorbing particles, esp. silica- contg. granulate (II), are used to absorb excess heat from the slaking operation, these particles being removed from the CaO product after heat absorption. The granulate (I) is useful as a filler in concrete.

Description

805041 / vdV / hh * f - 1 -

Short designation: Particulate material.

The invention relates to particulate material containing at least one filler held together using inorganic binder.

Such a particulate material formed by granulating a mixture of calcium hydroxide obtained by quenching commercial lime, siliceous material and pyrite ash is known. After sufficiently large granules have formed, they are sprinkled with a mixture of calcium hydroxide and, for example, ground sand, so that a scale is formed around the granulates, formed from calcium hydroxide and silicon-containing substances. The whole is then hardened hydrothermally.

This particulate material has the drawback that relatively large amounts of hydraulic binder are required to obtain particulate material of the desired strength and, moreover, expensive equipment for the treatments is required.

The object of the invention is now to provide a particulate material in which the particles can be given a very high strength, under important energy savings, while on the other hand these particles have a very high strength.

This object is achieved according to the invention in that the filler consists at least partly of a substance with latent hydraulic properties and the latent hydraulic properties are effectively activated by heating to above 30 ° C.

When using a filler which has latent hydraulic properties which can be activated by heating, the great advantage is obtained that particulate material is obtained very quickly with a desired hardness.

Such curing is mainly effected by the reaction between the above-mentioned filler and by the reaction of the hybrid draining binder when cement is used for this.

A particularly advantageous embodiment of the invention is characterized in that the filler consists of a substance with pozzolanic properties, in particular fly ash.

5 As is known, fly ash is released on a very large scale, among other things when burning fossil solid fuels, such as coal or coal.

This fly ash is used as a filler in concrete, but it has been found that fly ash containing concrete only after a very long hardening time has the desired strength, in contrast to concrete, manufactured with only cement as a hydraulic binder.

With particular advantage, the latent hydraulic properties are activated by heating above 30 ° C by absorbing the particles in a medium in which heat is generated.

Such a medium can, for example, be the liquid reaction medium formed by the reaction of two substances with the development of heat.

The invention also relates to a method for forming a particulate material, comprising at least one filler, held together using inorganic binder such as a hydraulic binder, characterized in that a filler is included in a particulate material, which is at least partly made of a substance with latent hydraulic properties 25, and activates the latent hydraulic properties by heating above 30 ° C.

Heating is particularly advantageous above 50 ° C and preferably up to 100 ° C.

A suitable filler with latent hydraulic properties is a substance with pozzolanic properties, in particular fly ash.

It has been found that in this way particulate material is obtained very quickly with the desired strength properties, 800 22 52 γ - 3 - so that these particles can be used as substitutes for gravel in concrete.

In order to control the volume weight of the particles, foaming agent resp.

an effective blowing agent, such as casein or *, is added to the product. aluminum powder, add. By gas development, t cells, whether or not closed, are then formed in the particles.

The invention will now be elucidated on the basis of a number of exemplary embodiments.

EXAMPLE I

82 parts by weight of fly ash from a power plant is mixed with 18 parts of Portland cement and the whole is mixed with water to obtain a mass which is granulated in a granulating cream. The formation of the granulates is sprinkled with sand particles.

The obtained granulates are cured for at least half an hour, preferably three hours, at a temperature of 95 ° C in a moist environment.

The granulates thus obtained are sufficiently hard to be used as aggregates for concrete.

EXAMPLE II

A mixture of fly ash and cement is formed, mixed with water and granulates are formed by extrusion using an extrusion press.

The granules thus obtained are added as a heat-dissipating material when mixing calcium oxide, water and fly ash, from which granules are also later formed.

The heat generated during the reaction of calcium oxide with water serves in this case to activate the latent hydraulic properties.

After mixing, the pre-formed granules can be removed. sieve and use as a surcharge for concrete.

800 2 2 52 - 4 -

EXAMPLE III

Fly ash and cement and water are mixed. Silicon-containing particles are then deposited on the formed granules in the form of sand particles.

The granules obtained are added to a mixing vessel, in which a heat-supplying reaction takes place. This can be, for example, quenching calcium oxide.

The granules obtained obtain a very high hardness due to the heat release that occurs when the lime is extinguished.

These granulates harden over time, on the one hand by hardening of the cement and on the other by reaction of calcium oxide with the fly ash.

EXAMPLE IV

The previous example is repeated, but part of the fly ash is replaced by sand, clay or plaster materials or other substances that are compatible with the mixture.

EXAMPLE V

Particles are formed and added to a mixture of calcium oxide, water and sand, which contains, for example, 35% calcium oxide. During mixing, a large amount of heat is released by reaction of calcium oxide with water.

The mass obtained from the mixing vessel is then screened to separate the particulate matter from fly ash with binder.

The sieved mixture is then further cut with sand to obtain a mixture containing about 5% or more of calcium oxide, after which lime-sandstone products are formed therefrom by hydrothermal hardening.

EXAMPLE VI

The procedure is as in Example 1, but a foaming agent is added to vary the volume weight of the particles from 0.3 to 1.8 kg / l. The foaming agent is casein. Porous particles are obtained by first beating the water with casein.

800 2 2 52 - 5 - c »*

EXAMPLE VII

Proceed as in Example 1 and add aluminum powder. The aluminum powder developed by reaction with calcium hydroxide hydrogen which makes the particles porous. By suitable selection of the amount of aluminum powder added, the volume weight of the particles can be controlled between 0.3 and 1.8 kg / l. Closed-cell particles are obtained.

800 22 52

Claims (18)

Particulate material, containing at least one filler, held together using inorganic binder, characterized in that the filler consists at least partly of a substance with latent hydraulic properties. Particulate material according to claim 1, characterized in that the latent hydraulic properties are activated by heating above 30 ° C. Particulate material according to claim 2, characterized in that the latent hydraulic properties are activated by heating above 50 ° C, preferably between 60 and 100 ° C. Particulate material according to one or more of the preceding claims, characterized in that the latent hydraulic properties are activated by heating at 95 ° C. Particulate material according to one or more of the preceding claims, characterized in that the material with latent hydraulic properties is a material with pozzolanic properties, preferably fly ash. Particulate material according to one or more of the preceding claims, characterized in that the filler mainly consists of fly ash particles. Particulate material according to one or more of the preceding claims, characterized in that the particles have closed cells or not. 800 22 52 -7 - m ^ r P 8. A method of forming a particulate material containing at least one filler held together using an inorganic binder, characterized in that a filler consisting at least partly of a substance with latent hydraulic properties is used. Process according to claim 8, characterized in that the latent hydraulic properties are activated by heating above 30 ° C. 10. Process according to claim 8 or 9, characterized in that the latent hydraulic properties are activated by heating * above 50 ° C, preferably between 60 and 100 ° C. 11. Process according to claim 10, characterized in that it is activated at a temperature of 95 ° C. Method according to one or more of claims 8-11, 15, characterized in that the material with hydraulic properties is a material with pozzolanic properties, preferably fly ash. 13. Process according to one or more of claims 8-12, characterized in that particles are formed from the starting mixture and, after storage at room temperature, they are heated by means of heat from a chemical or physical reaction. 14. Process according to claim 13, characterized in that the chemical reaction heat is obtained by quenching calcium oxide with water. Method according to one or more of claims 8 - 14, 25, characterized in that the heat required for activation is 800 2 2 52 · * · * - 8 - is obtained by mixing silicon dioxide-containing material and calcium oxide, preferably such that the amount of calcium oxide in the mixture to be prepared exceeds 5%. 16. Process according to one or more of claims 8-15, characterized in that a blowing agent or foaming agent is added to the mixture for the particles to be formed. Method according to claim 16, characterized in that the blowing agent consists of aluminum powder. Method according to claim 16, characterized in that the foaming agent consists of casein. 800 2 2 52