NL8101009A - BINDING AGENT BASED ON WASTE GIPS AND SYNTHETIC ANHYDRITE. - Google Patents

Description

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Binders based on gypsum plaster and synthetic anhydrite.

The invention relates to new binders obtained by simply mixing waste gypsum from the chemical industry or thermal power stations with a synthetic anhydrite.

So far, the reprocessing of waste gypsum from the chemical industry, such as phosphogypsum, or gypsum from the desulphurisation of the combustion gases of thermal power plants has not found an absolutely satisfactory solution.

The processes aimed at obtaining from these by-products a calcium sulfate hemihydrate, which is useful as a binder in the construction industry, have the drawback that both a waste gypsum purification and a calcination operation are required.

It has also been proposed in European patent application No.0 007 S10 gypsum from desulphurisation of the combustion gases of thermal power plants after a total or partial dehydration with a dehydrated natural gypsum or simultaneously mixing the mixture of waste gypsum and natural gypsum to dehydrate. However, this method also brings. an energy-consuming dehydration step with it.

It has now surprisingly been found that very good quality binders can be obtained by simply mixing the waste gypsum of chemical origin or from desulfurization of the combustion gases of thermal power plants with a synthetic anhydrite binder without any purification nor calcination.

Synthetic anhydrite binder means a binder according to German Standard DIN 4208 obtained starting from. of fluoroanhydrite, a by-product of the preparation of hydrofluoric acid, or of phosphoanhydrite, e.g. obtained according to the method of French patent 2,423,463. The natural anhydrite ^ 8101009

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is not useful in the preparation of the binders of the invention.

The chemical gypsum waste gypsum such as the phospho gypsum useful in the invention contain at least 90%, and preferably at least 95%, calcium sulfate dihydrate CaSO2.2H2U. They are contaminated with various impurities such as calcium fluoride, silicon dioxide, iron oxides, aluminum oxide, phosphates, etc. Their maximum particle size is generally less than 0.3 mm, while the average particle size is on the order of 10 to 40 µm. is.

The waste gypsum from thermal power plants, which are also useful in the invention, were obtained in the course of desulphurisation of the combustion gases from these power plants by washing with an aqueous lime solution. A mixture of neutral and acidic calcium sulfite is first formed, which is oxidized by air to calcium sulphate hydrate. This raw gypsum contains at least 90 wt.% CaSO2.2H2 O. It is polluted by many. impurities such as sulfites, chlorides, carbonates, silica, alumina, magnesium oxide, iron oxide, etc. Its maximum particle size is generally less than 0.2 mm, while the average particle size is on the order of 30 - 40 µm.

The respective amounts of the waste gypsum and synthetic anhydrite in the mixtures constituting the new binders according to the invention can vary quite widely between 90 - 10% and 10 - 90%. From an economic point of view it is important that the mixtures contain as large an amount of cheap waste gypsum as possible, from the viewpoint of technical utility, the mixtures rich in synthetic anhydrite are the most interesting. The best compromise is obtained by mixtures of 30 equal amounts of waste gypsum and synthetic anhydrite.

According to the invention, it is also possible to use different waste gypsum of different origin mixed with the anhydrite binder.

Ij® The new binders according to the invention can be used as a pure paste or they can be combined with grains to obtain mortars or concrete. Additives can be added to the pure pastes, to the mortars or to the concrete, to change the properties of the masses before they are cured, or to change the properties of the material after curing.

The applications relate to all materials used in the construction industry. In particular, self-leveling coatings can be prepared from pure paste or mortar by fluidization. Cellular materials can also be prepared by ex-1Q pandering of the pure paste or mortars e.g. using aluminum powder.

In the two examples given below for illustrative purposes, pure pastes were prepared by adjusting the mixing water so that the spread diameter of the paste determined according to German Standard DIN 1164 was 15 mm 5 mm. The beginning and end of the ligation are also determined in accordance with the same DIN 1164 standard.

The flexural strength at break and the compression strength tensile strength determined using 4 x 4 x 16 cm test specimens according to NF P 15-451 standard.

A waste gypsum with the following properties is used as waste gypsum: a) grain size: between 0.7 and 200 µm; average: 33 ym, b) chemical analysis:

CaS04.2H20 95.5% 25 CaF2 2.0%

SiC ^ 0.6%

Fe203 0.2% A1203 0.3% P20j. soluble in water 0.1% 30 P20g insoluble in water 0.5%

800 g of this phasfogypsum are mixed with 800 g of fluoroanhydrite according to German Standard DIN 4208 and 176 g of water. The times

Q for the beginning and end of ligation, as well as the mechanical strengths after 7 and 28 days, are indicated in the table after Example II.

i 8101009 -0- 'S' * - 4 -

Example II

A waste gypsum from thermal power stations is used, with the following properties: a) grain size determined by sieving a product dried at 5 100 ° C:

Mesh size of the sieve Sieve residue

Cym). (wt%) 37 80 74 10 10 90 1.4 100 0 b) Ebamic analysis:

CaSQ4.2H20 95.5%

Si02 0.5% 15 S02 0.3%

Fe203 0.1%

MgO 0.1% CO2 0.1% H2Q 3.4% 20 800 g of this desulfurization gypsum are mixed with 800 g of fluoroanhydrite according to German Standard DIN 4208 and 168 g of water. Times of start and end of ligation as well as the mechanical strengths after 7 and 28 days are given in the table below.

25 Table

Pre-Beginning End Volume-mass Bending tensile strength Compressible-image-from-from- Cg / cm3) Cbar) _ (bar) 7 days- 28 days- 7 days 28 days? n 2a S0n gan 30 I> 6 h> 12 h 1.68 1.66 26 52 115 220 II 65 mn 105 mn 1.78 1.76 74 .76 270 275

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8101009

Claims (9)

1. Binders having the Characteristic that they consist of mixtures of waste gypsum and synthetic anhydrite. Binders according to claim 1, characterized in that the waste gypsum is phosphogypsum. Binders according to claim 1, characterized in that the waste gypsum originates from desulphurisation of combustion gases from thermal power stations. Binders according to claim 1, characterized in that the synthetic anhydrite is a fluoroanhydrite. Binders according to claim 1, characterized in that the synthetic anhydrite is a phosphanohydrite. Binders according to claims 1-5, characterized in that the waste gypsum content is 10 - 90% by weight. Binders according to claims 1, 4, 5 and B, characterized in that different waste plasters of different origin are used. Binders according to claims 1, 2, 3, 6, 7, characterized in that different synthetic anhydrites of different origin are used. 2Q Construction materials obtained using the binders according to claims 1-8. 8101009