NL8203164A - PLATE OF PLASTER CARDBOARD. - Google Patents

Description

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Short designation: Plasterboard board.

The invention relates to a plasterboard board made from semi-hydrate gypsum and other additives.

It is known to mix gypsum with various substances, wherein these substances are pure fillers or have self-balancing or firming properties, in the beginning gypsum may be present as a semi-hydrate or as a semi-hydrate mixture or anhydrite. a

For example, it is known, when manufacturing floor plates from anhydrite, to replace this material before or during the pre-treatment by certain organic products which harden into a plastic mass by polymerization, condensation or the like. However, these self-curing mixtures require further processing and generally make the product more expensive. Instead of the expensive organic products, sanding boards for floors also use sand, quartz flour, wood flour, diatomaceous earth, limestone flour and chalk, but a reduction in the compressive strength occurs, so that additional layers have to be applied to overcome these disadvantages. lifting as described in German Patent 825,521.

It is furthermore known from German patent specification 03.655 to improve gypsum plates by adding fibrous constituents thereto, while cement can additionally be added to gypsum.

German patent 1258323 discloses the preparation of plasterboard boards for the construction industry, in which the use of calcium sulphate dihydrate from the preparation of phosphoric acid is to be improved by burning the industrial gypsum in the manner that is done in the preparation of semi-hydrate from natural gypsum and when processing it into a gypsum mixture adjusts the pH in a certain way.

It is also known to, in order to improve the properties of the plasterboard panels, mainly prepare an aqueous and pourable gypsum mass and thereby achieve a better connection of the semi-hydrate mixture with cardboard, whereby cardboard is used as wet fiber layer in the form of a wet layer. and is brought into contact with the gypsum mixture so that cardboard in the form of a fibrous material belt is also supplied.

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In the manufacture of gypsum boards which are provided with a paper layer, wherein the gypsum core contains starch, which is at least on the side provided with a paper coating, wherein a layer consisting of a hardened cross-linked is applied between the gypsum core and the covering layer of paper. organic hydrogen polysiloxane compound, it is known to use an intermediate layer prepared from a cured, water-repellent organic silicon compound consisting of an epoxy silicon, a polymerized silane or a polymerized addition product of hydrogen silicon and a fatty acid ester. The purpose of these measures is to improve the adhesion of cardboard to the gypsum core, to decrease the starch content in gypsum and to improve its firmness, as described in German patent 1646797.

It has also been proposed to prepare plates from a mixture of soil, sand and sodium hydroxide using heat and pressure to thereby rationally produce plates that comprise only one curing step and have a high strength (German Auslegeschrift 2500151),

Finally, reference should also be made to German Auslege script 2546181, relating to the production of building elements, in which the gypsum mixture is foamed, and in which the gypsum water mixture in the presence of foam-stabilizing additives contains iso-cyanate compounds and / or polyurethane -adducts are dispersed from abundant isocyanate compounds with polyester and / or polyether and / or with amino compounds. Thus, it is desired to achieve a slow shifting with the formation of a low foam pressure and thus obtain a longer open processing time for manufacturing the building element, for example for manufacturing sandwich plates.

The above-mentioned prior art shows that in the manufacture of building elements in the form of plates, fillers are considered to be disadvantageous due to the pure ballast character and the insufficient self-hardening properties, while the firmness and the unity of the product are weakened. . It also appears from this prior art that almost always attempts have been made to produce plaster board-shaped building elements by mixing and improving self-hardening organic plastics even with foamed or foamed products, or by adding with mixing of fibrous material or by a certain pre-processing and processing of the semi-hydrate gypsum.

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From Ullmann, Enzyklopadie der technicalen Chemie, third edition, volume 8, biz. 124, it appears, for example, that inert additives interfere with the cross-linking of the gypsum crystals and that their firmness is reduced in proportion to the concentration. When sand is added in an amount of up to 6 parts by weight per part by weight of plaster, the firmness drops to 1 / 6-1 / 7 under dry conditions.

In addition, gypsum mixtures are known which are used as filler or lubricant, which are mixed with water-soluble cellulose derivatives and fillers or, for example, with a clay gel in an amount of up to 5% by weight. However, such masses are used as plaster or mortar compound, but not for the manufacture of plate-shaped building elements (see German Auslegeschrift 2540954 and German Offenlegungsschrift 2165221).

Furthermore, attempts have been made to improve the properties of gypsum 15 or of gypsum building material by applying certain burning, storage or grinding operations to give gypsum certain properties with regard to the curing properties and the strength.

In gypsum technology, especially in the manufacture of plates, the idea was that gypsum should be pure if possible, and for this reason many proposals known in the literature have been made to further process industrial gypsum in a special way, in accordance with with the processing of natural gypsum rock.

Particularly in the use of gypsum for the manufacture of sheets of gypsum board, the opinion has developed that gypsum must be pure in order to obtain a good connection not only with cardboard, but also with regard to the secondary effects on the gypsum board plate such as with with regard to the moisture or paintability of cardboard, with regard to the penetration of outgoing chemical compounds or with regard to the corosive action of the fasteners present in the gypsum core, for instance an iron nail.

In addition, it is worth noting in this context that the purest possible semi-hydrate gypsum is not only very labor-intensive to obtain, but also that this product requires a great deal of energy and is moreover not available indefinitely to the contractor or other user.

The object of the present invention is therefore to obtain a plate-shaped building element, in particular a plasterboard board, which with regard to its quality and with regard to the 8203164 -4-22614 / Vk / mb general quality and the firmness and workability practically do not plates made of plasterboard made from pure plaster can be distinguished, but can be produced in a more environmentally friendly and energy-saving manner.

This object is achieved by using a plasterboard board according to the invention and it is characterized in that the gypsum core also contains up to 50% by weight, based on gypsum, inert filler, the filler being so arranged according to a sieve curve. provided that it has a dense ball packing, comparable to the 10 per se known Fuller curve.

This sieve curve of the inert filler is in the range from 0 to 3 mm, but preferably in the range from 0 to 1.5 mm, and in particular in the range from 0 to 0.5 mm. It is an advantage when the content of larger grains is not too high.

Limestone and dolomite rock are preferably used as the inert filler, but also anhydrite and / or sand. The mixture according to the invention is prepared in a manner known per se and also in a manner known per se mixed with water to form a corresponding, processable gypsum mixture, which mixture is known and used in the industry for the production of plasterboard panels. contains additives such as retarders, accelerators and the like.

It is also possible to add short fibers in the form of glass fibers to the mixture in a manner known per se.

As retarding substances, it is possible to add, for example, a compound which is known as retarding material, but also gives gypsum a certain hydrophobic property, for example a fatty acid, such as palmitic, stearic or oleic acid in the form of a dispersion in water or in the form of a water-soluble salt of such an acid, for example magnesium stearate.

Experiments have shown that a plate manufactured in such a manner has only considerably lower strengths compared to the known plates of this kind, whereas, on the other hand, a reduced use of semi-hydrate gypsum is obtained and considerable advantages are obtained during processing, for example, the lower energy consumption for drying per plate unit, while, for example, in a conventional plate, 3.5 kg of water used per square meter must be evaporated, while 8203164> - -5- 22614 / Vk / mb in the plates according to the invention, the portion of water to be evaporated, depending on the amount of inert material supplied, is still only 2.0 to 2.8 kg. As additives one can also choose a combination of substances, for example ground limestone, sand and anhydrite, all three substances with regard to the sieve curve must be chosen so that together they give the closest possible packing that is in accordance with the Fuller -curve. Fly ash can also be added and used, as can be obtained, for example, with the electric filters of power plants, which fly ash 10 can be used as an additive in this context.

From the above it will be clear that the plate according to the invention corresponds in terms of physical properties to the plate known so far, but that for producing it considerably less energy has to be consumed for the burning of plaster and for the production of the plasterboard boards, in comparison with the method of manufacturing the hitherto known plasterboard boards. This will allow significant technical progress to be made, especially with regard to primary energy consumption and gypsum consumption, 8203164

Claims (10)

Plasterboard board made of semi-hydrate gypsum and further additives, characterized in that the gypsum core also contains 5 to 50% by weight, based on gypsum, inert filler, the filler being composed according to a sieve curve in such a way that it is densest ball packing, comparable to the well-known Fuller curve. 2. Plate according to claim 1, characterized in that the sieve curve of the inert filler is in the range from 0 to 3 mm, preferably 0 to 1.5 and in particular 0 to 0.5 mm. Plate according to claims 1 and 2, characterized in that the content of large grains is as low as possible. Plate according to claims 1-3, characterized in that ground limestone, preferably ground dolomite rock, is used as the inert filler. Plate according to claims 1-3, characterized in that the inert filler is anhydrite or sand or a mixture of limestone, anhydrite or sand. 6. Plate according to claims 1-5, characterized in that to the mixture of semi-hydrate gypsum, fillers, other additives necessary for processing the gypsum mixtures to be prepared, are added. Plate according to claims 1-6, characterized in that the mixture contains glass fibers with a length of up to 15 mm. Plate according to claims 1-7, characterized in that a fatty acid or salts thereof are used as retarder. Slab according to Claims 1 to 8, characterized in that it consists of a mixture of ½ hydrohydrate (plaster gypsum) and 15% by weight ground limestone with a grain size between 0 and 1 mm. 10. Plate according to claims 1-9, characterized in that it consists of a mixture of β-semohydrate and 25% by weight of ground limestone with a grain size between 0 and 0.5 mm. Eindhoven, August 1982 8203164