CS218253B1 - Tixotropous cement composition - Google Patents

Description

The invention relates to the production of building materials.

It solves the formulation of a thixotropic cement composition, which is intended for surface treatment of concrete, aerated concrete, brick or ceramic components, etc. Composition j _; It is intended for thin-layer treatment as a base for final layers, for repairs and unification of heterogeneous and insufficiently smooth bases or for final treatment of building surfaces.

SUMMARY OF THE INVENTION The present invention is based on the use of water-soluble cellulose derivatives having both ionic and nonionic functionalities and with minor substitutions of hydroxyalkyl, carboxyalkyl or alkyl groups in the range of 0.4 to 2.8 and a degree of substitution of alkyl groups in the range of 0.5 to 1.4. The invention can be used in building finishing.

The invention relates to a thixotropic cement composition consisting of cement, fillers, modifiers and water-soluble cellulose derivatives with alkylated and / or hydroxyalkyl groups which, when mixed with water, forms a stable paste consistency which can be easily processed by coating, gravel or spraying.

The prior art thixotropic cement compositions contain fibrous fillers that improve processability and prevent runoff on inclined surfaces. These include, for example, asbestos fibers, mineral fibers (Pat. NS 6 21 389 J, synthetic fibers (Pat. NS 15 71 395 J), modifying and correcting additives such as pectins (Pat. Switzerland 2 19 372J, polysaccharides (Pat. USA). 3 432 312J, sucrose (Pat: Franc, 9 83 939), oxyethylated fatty alcohols (Pait. GB 787 187), resin emulsions (Pat. NSR 2.2 60 488), aqueous polymer emulsions (Pat. Switzerland 530 34.6, U.S. Patent 2,733,995; GB 10,459,596; NSR 23,222,707) or certain cellulose derivatives, in particular methylcellulose (Pat. Switzerland 564,492).

The fibrous filler improves the thixotropic properties of the cementitious compositions, but requires an excess of water to process, resulting in increased water absorption and vigor in the final product. Organic modifying and correcting additives aerate the cement composition and cause a decrease in mechanical strength. Aqueous polymer dispersions increase the tensile and flexural tensile strengths, but cause slower cure of the product and are economically disadvantageous at an effective dispersion content. Alkyl esters are most effective, but deteriorate the water and atmospheric resistance of the reacted composition. They can therefore be used in detail as methyl and ethyl cellulose only for internal applications.

The aforementioned drawbacks are overcome by the thixotropic cementitious composition of the invention which contains 0.07 to 8.0% by weight of the binder. water-soluble cellulose derivatives with ionic and ebonite functional groups and with molar substitution of hydroxyalkyl, carboxyalkyl or alkyl groups in the range of 0.4 to 2.8 and degree of substitution of alkyl groups in the range of 05 to 1.4. Said effective amount of hydroxyalkyl or carboxyalkyl functional groups, expressed as the number of moles of the substituents in the anhydroglucose chain units (molar substitution), affects the water solubility of the cellulose. The degree of substitution as a measure of the hydroxyl feel is independent of the molar substitution and ensures the resistance of the cellulose ethers to degradation. The optimum degree of substitution was found to be in the range of 0.5 to 1.4 with a slack substitution of 0.4 to 2.8. The use of water-soluble cellulose ethers of this composition does not deteriorate the waterproofing of the hydrotropic cement composition, the product has a high density and is easy to process. At the same time it has a low water absorption but retains dufuse activity.

The use of horizontal-dispersible cellulose derivatives with both ionic and nonionic functionalities having a hydroxyalkyl or carboxyalkyl molar substitution in the range of 0.4 to 2.8 and an alkyl group substitution degree in the range of 0.5 to 1.4 provides good processability of the itixotropic composition, good rheological properties, resistance to degradation over a wide working pH range, and increased resistance to water and atmospheric influences. Moreover, the effective range of molar substitution and degree of substitution is such that ionic substitution is such that contact of the dissolved cellulose derivatives with the alkaline earth ions does not produce insoluble compounds and does not require the use of protective colloids, as is the case with other cellulose derivatives.

The thixotropic cementitious composition according to the invention is preferably used for spraying or gravel-coatings, for coatings or coatings for leveling various building substrates, for creating decorative surfaces, for protecting a building against moisture, water and weathering and for joining materials.

Examples

1. Prepare by homogenization a dry mix consisting of 39,0% white cement, 51,0% limestone grit with grain size up to 0,5 mm, 4,0% calcium hydrate, 3,2,% silica 140 kg m ^-3 , 2.0% of pigments, 0.76% efylhydroxyethyl, cellulose with 0.8 (hydroxyethyl) molar substitution and 0.9 (ethyl) substitution degree and 0.04% lignosulfonate calcium, all in weight percent. Ke 100 wt. 40 parts by weight of dry mixture are added. After homogenization, the resulting paste-like mass is applied to the wall surfaces. After curing, the paint should adhere to 0.7 MPa, a wet abrasion of 200 s, a volume stability up to a thickness of 8 m, and a water absorption of 2.5% by weight. The hardened material is suitable as a final surface treatment for industrial buildings with wet operation.

2. Perfectly homogenize 40.0% cement, 46.0% float chalk, 4.0% lime hydrate, 4.0% ground silicon dioxide by volume. 180% Kg ^-3 , 2.0% micronised asbestos and 2.0% micronized asbestos, and 2.0% activated bentonite and 2.0% color pigment, all by weight. 100 wt. parts of the dry mixture are intimately mixed with 35 wt. parts of a 2% aqueous colloidal dispersion of methyl carboxymethylcellulose with a molar substitution of 2.0 (carboxymethyl) and a degree of substitution of 0.4 (carboxy). It has a adhesion of 0.9 MPa, a wet abrasion of 150 min., a water absorption of 0.5% by weight and is resistant to water and weathering.

3. Completely homogenize 36.0% of cement, 5.9.4% of limestone grit with a grain size of up to 0.5 m, 4.0% of calcium oxide and 0.6% of hydroxyethylcellulose with a degree of substitution of 0.6 (ethyl), all in weight percent. 100 wt. parts of the dry mixture are mixed with 30 wt. parts of water and the resulting material is sprayed onto substrates in a layer up to 5 mm thick. After smoothing the applied material with wide steel squeegees, a smooth surface finish suitable for finishing by painting or wallpapering is obtained. The thin-layer plaster has a adhesion to the substrate of 1.0 MPa, a wet abrasion of 240 s, a water absorption of 2.5% by weight. and volume stability

Claims (2)

Subject 1. Thixotropic cementitious composition consisting of cemient, inorganic fillers, cement binder modifying additives, optionally other inorganic binders such as lime and gypsum, and / or organic binders such as aqueous polymer dispersions or solid water-redispersible polymers, pigments and reinforcing agents % of fillers, characterized in that it contains from 0.07 to 8.0 wt. water-soluble cellulose derivatives with ionic and non-ionic functional groups and with mplar sub53 up to a thickness of 3 cm. The mixture can also be used as a bonding mortar binder for bonding structural elements to one another or for bonding ceramic prefabricates to silicate substrates. 4. 65.0% of slag-corticoid cement, 29.0% / of quartz sand of 0.1 to 0.5 mm, 3.0% activated bentonite, 2.0% ground asbestos and 1.0% / o carboxymethylcellulose, all by weight. 100 wt. parts of the dry mixture are mixed with 40 hmet. parts by weight of water containing 10 wt. aqueous dispersion of styrene 2-ethylhexyl acrylate with a dry weight of 50% by weight. The resulting pasty mixture is applied as a waterproofing layer to building surfaces. After setting, the surface layer has adhesion to substrates above 1.0 MPa, 300% wet abrasion and 0.1% water absorption. OF THE INVENTION by substituting a hydroxyalkyl, carboxyalkyl or alkyl group in the range of 0.4 to 2.8 and a degree of substitution of alkyl group in the range of 0.5 to 1.4. 2. The thixotropic cementitious composition of claim 1, wherein the water-soluble cellulose derivatives are methylhydroxymethylcellulose, ethylhydroxyethylcellulose, methylcarboxymethylcellulose, hydroxyethylcellulose or carboxymethylcellulose in solid form or in the form of an aqueous colloidal dispersion.