TH47622B - High Molecular Weight Additives for Calcined Gypsum and Cement Composition - Google Patents

Abstract

DC60 (14/05/46) The mixture will be mixed with water, it will be used for preparing the serries to be hydrated. In order to form a gypsum cement exterior decoration The mixture is composed of 30-70% by weight of hydraulic cement, 30-70% by weight of gypsum calcene and 0.05-2.5% by polycarboxylicate. Correct Adding to water that is less than 40% weight in relation to the weight of the mixture, slurry will be formed with very little expansion. While it was cured The mixture is then mixed with water, it is used for preparing serries to be hydrated. In order to form a gypsum cement exterior decoration The mixture is composed of 30-70% by weight of hydraulic cement, 30-70% by weight of gypsum calcene and 0.05-2.5% by polycarboxylicate. Correct Adding to water that is less than 40% weight in relation to the weight of the mixture, slurry will be formed with very little expansion. While it was cured

Claims (1)

1.1.% - 70% by weight of hydraulic cement; 30% - 70% by weight calcined gypsum; And 0.05% - 2.5% polycarboxylate 2. gypsum cement mix according to claim 1 where the aforementioned calcinate gypsum is alpha-calcened gypsum. 3. Gypsum-cement mixture according to claim 1, whereby the aforementioned mixtures is 35-65% hydraulic cement 4. Gypsum-cement mixture according to the claim. 1 where the mixture consists of 35% - 65% calcined gypsum 5. Gypsum cement mix according to claim 1 where the cement The aforementioned mixture consists of type 5 6. The gypsum cement mixture according to claim 1, where the aforementioned mixture consists of 0.05% - 1% polycarboxylate 7. Gypsum cement mixture. According to claim 1, where the polycarboxylate said Soluble in water 8. Gypsum cement mix according to claim 1, where such polycarboxylate has a range Molecular weight ranging from approximately 100,000 to approximately 5,000,000 Dalton 9. Gypsum-cement mixture according to claim 1, where such polycarboxylicate will be On the bases of oxyalkylene glycol-alkyl ether and unsaturated dicarboxylic acid derivatives 1 0. of gypsum cement mixes according to claim 1, where Lee carboxelate said It consists of acrylic resin laminate, modified acrylic polymer, co-polymer of acrylic acid and acrylamide, poly Polymer obtained by bonding polyalkeene oxide on polycarbonate or poly (methylvinyl ether / malic acid) core 1 1. Mixture of gypsum cement according to the above. Holds 1 right, which includes at least One of the mineral-forming additives or which delay the formation 1 2. Gypsum-cement mixtures pursuant to claim 11, provided that such additives include: At least one of aluminum sulphate, potassium sulphate, acid, retarder consisting of protein and calcium sulfate dihydrate 1 3. gypsum cement mix according to claim 12, where calcium sulphate is The hydrate is thoroughly ground together with sugar 1 4. Gypsum-cement mixture according to claim 1, where 100 parts of the mixture are The slurry was mixed with less than 40 parts of water to make a slurry, the slurry expanded by less than 0.01% when it was cured. It consists of: hydraulic cement; Calcined gypsum; Polycarboxylicate; And less than 40 parts of water per 100 parts by weight of dry mixture 1 6. Slurry according to claim 15 where the said water is composed Total of less than 25 parts per 100 by weight of dry mix 1 7. Slurry according to claim 15, where hydraulic cement is available in volumes from 30-70 parts, Calcine The gypsum is available in quantities ranging from 30 to 70 parts and polycarboxylates in amounts from 0.10 to 10 parts per 100 by weight of the total solids of the mixture 1 8. Lerry according to claim 15, where polycarboxylicates It will be based on Oxyalkylene glycol-alkyl ether and unsaturated dicarboxylic acid derivatives 1 9. Slurry according to claim 15, where said slurry It expands by less than 0.01% when it is cured. Which includes; Dosing of the dry mix consisting of approximately 30 parts to approximately 70 parts gypsum calcinedate, from approximately 30 parts to approximately 70 hydraulic cement, and from approximately 0.1 to approximately 10 polycarbonates. Less than 40 parts water per 100 parts by weight of dry mixture; Mixing the dry ingredients into the water; The emergence of Serry; Tesslorry into a shape that is appropriate. In order to form a casting; Allowing the slur to be cured; And removing the cast from type 2 1. Method according to claim 20, which further includes: Add wet aggregates. In slurry before the aforementioned pouring process