DE3339197A1 - Self-flowing, smoothing flooring compound and process for its manufacture - Google Patents

Abstract

The invention relates to a self-flowing, adhesive flooring compound and to a process for its manufacture. The flooring compound according to the invention has the following composition: 36 - 45% by mass of cement, 45 - 58% by mass of sand and/or ground limestone, 2 - 5% by mass of gypsum, silica, bentonite or mixtures thereof, 1 - 3% by mass of casein, 0.05 - 0.18% by mass of NaF, 0 - 1.2% by mass of silicone oil, soda and/or hydrated lime, 0 - 4.0% by mass of zeolite, 0 - 0.5% by mass of methylcellulose and 0 - 20% by mass of fly ash and/or ground blast furnace slag. The dry flooring compound is produced by dry mixing of its components. For application, it is stirred up with 20-30% of water and then applied in a layer thickness of 2-20 mm. Due to its good flow properties, a smooth surface is formed rapidly, which is walkable already after one day and whose mechanical parameters (compressive strength, flexural strength, dimensional stability) in some cases exceed the properties of similar known products.

Description

s EXTREME SMOOTHING SCREED COMPOUND AND PROCEDURE

FOR THEIR PRODUCTION The invention relates to a self-tiling smoothing dry screed mass and a method for its preparation, after mixing the screed compound according to the invention can be processed with water. The one that can be applied all at once Layer thickness is 2-20 mm, the flowability examined under standard conditions the mass is at least 200 mm as a circle diameter.

It is known that the prefabricated floor elements are not completely smooth and their surface after installation is less or more of deviates from the horizontal. That's why PVC floor coverings or wall-to-wall carpets not to be glued on directly because that would make a hump-backed, uneven, not right to the ground Floor.

To remedy this, attempts were made to mortar the surfaces with cement to smooth. However, this method was not put into practice because hand spreading turned out not to be sufficiently uniform; the flat ones were not sufficiently compact and level, because the mortar had no flow properties, and to promote flow through vibration was also not possible because you can't vibrate the whole building.

Various compositions have already been found as a smoothing layer Use. For example, screed compounds were used to remove the unevenness Anhydrite content, also applied mortar made of cement and sand containing polyvinyl acetate. In Hungary two dry screeds are in practical use: the screed ASM-88 from Austria and a Swedish one traded under the name Planorok Product. The composition of these masses is not known.

The known Estricbmassen have various disadvantages: they will solidifies too slowly, does not flow sufficiently and tends to crack. aside from that its accessibility is limited, since it is only obtained from capitalist imports can be.

The aim of the invention was to eliminate the disadvantages mentioned and the provision of a screed compound that is free from these disadvantages and is made up of indigenous (possibly made from raw materials that can be procured within the framework of the Comecon) can be.

It has now been found that the above objectives can be achieved can if you consider the composition of the self-leveling smoothing screed chooses as follows: 36 -45 5 mass% cement 45 -58 mass% sand and / or limestone powder 2 - 5 mass% gypsum (CaS04.12 H20), silica, bentonite or their mixture 1 - 3 masses of casein 0.05-0.18 mass% sodium fluoride (NaF) O - 1.2 % By mass of silicone oil, NaOH, soda and / or hydrated lime powder O - 4% by mass of zeolite 0 - 0.5% by mass of methyl cellulose O -20% by mass of fly ash, powdered blast furnace slag The cement component the screed can be both portland cement and aluminum cement. In the latter Trap can also be used bauxite cement. It is also possible to do the above Use cement types in a mixture. The use of portland cement alongside aluminum cement is advantageous, particularly advantageous is a proportion of the mass of Portland cement related to 5-15% by mass of bauxite cement. The quality of the cement is generally standardized (in Hungary: MSz 4702).

The sand and limestone powder components of the screed compound have a grain size of at most 1 mm, the grain fraction between 0.1 and 0.6 mm is preferred. Particularly It is advantageous if the nominal size of the particles of the limestone powder is 0.25 m. The sand can come from a sand pit or be sand or quartz sand, the Limestone powder can be obtained by grinding the limestone from any limestone quarry can be obtained.

Building plaster, stucco plaster as well as molding or Model plaster in question. Any ordinary bentonite (e.g. from Istenmezo or Mad in Hungary). Among silica4 is amorphous silicon dioxide to understand. If the silica is used together with gypsum or bentonite, so one only takes at most 0.2% by mass, while silica alone in one lot 2-5 mass% is used.

The casein can be the so-called ordinary acid casein, which is used in dairy farming is obtained by acid precipitation. It is yellowish-white or white, finely crystalline Product in an amount of 1-3% by mass, preferably 1-1.5% by mass of the screed mass is added.

The sodium fluoride is a commercially available one in the form of a white powder Product. It is added to the screed mass in an amount of 0.05-0.18% by weight. It is advantageous if the amount of sodium fluoride based on the amount of Casein is 5-6% by mass.

The most common of the silicones, dimethylpolysiloxane, can be used as silicone oil. can be used, but other silicone oils can also be used, which is quality not decisive. The amount added is a maximum of 1.2% by mass.

Soda and / or hydrated lime are used in technical quality, maximum in a proportion of 1.2 mass%.

Furthermore, 0-4% by weight of zeolite are added to the screed mass. Of the Zeolite is ground beforehand.

Fly ash from power plants can be used as ash is already dusty while the blast furnace slag is ground beforehand got to. The components mentioned are used in an amount of 0-20 masses.

The methyl cellulose is an easily accessible industrial product and comes in the form of powder or white resp.

yellowish white crystal flakes on the market.

The self-flowing screed compound according to the invention is mixed with water, namely mixed with 20-30% by weight of water and flows in this form under standard conditions on a glass plate without any external influence to a circle of at least 200 mm diameter. The screed prepared with the mass will be at 20 OC after one day step resistant, i.e. its compressive strength is at least 0.4 MPa, and his The surface is free of cracks.

The flexural strength of the solidified screed mass is according to 28 days at least 2 MPa, their compressive strength at least 10 MPa. The linear change in dimension after 28 days is a maximum of -0.4%.

The invention is based on the knowledge that this occurs during hydration The calcium hydroxide released by the cement or the hydrated lime added to the screed fair or the added sodium hydroxide or the mixture of soda and hydrated lime with the casein react and the calcium or sodium caseinate formed improves the flow properties of the cement mortar; this enables using further, the properties improving additives the production of the self-fluxing Screed compound.

When mixed with water, it tends to shrink Portland cement, therefore it is mixed with sand and / or xalkstejn flour in an amount of 45-55%. The maximum grain size of these additives must not exceed 1 mm. From touched Portland cement, the sand generally settles quickly, in the case of the sand according to the invention However, this does not occur in the composition.

Casein is a perishable substance, so it must be avoided a preservative substance, for example 5-6% NaF or a other preservatives can be added. If the casein to foam an antifoam agent, for example Silorhab, is added. Should the screed mass have an odor from the casein or any other of its constituents, so This can be achieved by adding a good adsorbent, such as ground zeolite is to be eliminated.

The density of solid casein is lower than that of liquid Phase of the mixed mortar, therefore the larger particles of casein have (above Q, 5 mm) the tendency to float to the surface of the applied layer. Through this pores remain on the surface of the solidified material return. These pores improve the tack of the PVC adhesive.

Should the number of pores be reduced or a completely smooth surface are obtained, this can be regulated via the grinding fineness of the casein.

By varying the grain size within the specified limits you can the acceptable layer thickness and the smoothness of the surface can be varied. additions with a larger grain size enable the application of thicker layers and result a coarser surface.

The screed mass produced in the manner described can be used in applied in a layer thickness of 2-20 mm on the appropriately prepared base and forms a cohesive, crack-free, fine-pored surface that is good can be pasted.

The invention is explained in more detail with reference to the following exemplary embodiments explained. All percentages are mass%.

Example 1 A mixture is prepared from the following components: Portland cement 450 38.7% limestone powder 00 15% sand 0.1-0.6 mm 41.3% casein (with 6% NaF) 1.3 % Gypsum 3.7% mixed with 25% water, the mass flows in the 240 mm.

Example 2 Portlani cement 36.35% bauxite cement 2.3% limestone powder 00 21.3% sand 0.1-0.6 mm 35.0 casein 1.3% gypsum 3.7% NaF 0.05 e To Mixing with 24.3 k of water, the degree of flow is 220 mm. One of the crowd cast plate with a surface area of 1 mx0.2 m and a thickness of 15 mm is after 24 hours step-tight and has no cracks.

Example 3 Portland cement 35.82% bauxite cement 4 Casein 1.1% limestone flour 00 -9 sand 0.1-0.6 mm 46 gypsum 3.9% NaF 0.18% mixed with 26% water flows the mass over a circle of 215 mm diameter.

Example 4 Portland cement 36.8% bauxite cement 3.2% sand 0.1-0.6 mm 46.0% limestone powder 00 8.9% casein (with 6% NaF) 1.1% gypsum 4.0% amount of water 24% flow 220 mm step strength good flexural strength MPa after 7 days 4.13 after 28 days 6.37 compressive strength MPa after 7 days 16.8 after 28 days 22.2 linear Dimensional change after 7 days - 0.08% after 28 days - 0.16% Example 5 Portland cement 36.8% bauxite cement 3.2% sand 0.1-0.6 mm 46.0% limestone powder 00 8.7% casein (with 5% NaF) 1.1% silica 0.2% gypsum 4.0% amount of water 24.3% flow 220 mm step strength good flexural strength MPa after 7 after 28 days 3.9 6.08 compressive strength MPa 17.2 19.7 linear dimensional change% -0> 1 -0.17 Example 6 Portland cement 36.9 % Bauxite cement 3.2% sand 0.1-0.6 mm 46.0% limestone powder 00 8.6% casein (with 6 % NaF) 1.3% plaster 4.0% amount of water 24.3% flow 215 mm step strength good Flexural strength MPa after 7 after 28 days 3.49 5.40 Compressive strength MPa 15.2 2C, O linear dimensional change% -0.07 -C, la EXAMPLE 7 Portland cement 36.9% bauxite cement 3.2% sand 0.1-0.6 mm 46.0% limestone powder 00 8.4% casein (with 6% NaF) 1.5% gypsum 4.0% amount of water 26.3% flow 230 mm step strength good Flexural strength MPa after 7 days after 28 days 3.5 5.3 Compressive strength MP8 14.0 19.8 linear change in dimension % -0.15 -0.27 Example 8 Portland cement 36.2% Bauxite cement 4% Gypsum Casein (with 6% NaF) 1.2% silica 0.2% sand 0.1-0.6 mm 53.5% soda 0.1% amount of water e 24.3% flow 220 mm step strength good flexural strength MPa after 7 28 days 3.27 6.27 Compressive strength IPa 13.9 18.1 linear change in dimension% -0.02 -0.14 3eisr-el 9 Portland cement 36/2% bauxite cement 4% gypsum 4.8% casein (with 6% NaF) 1.2% silica 0.2% sand 0.1-C, 6 mm 53.6% amount of water 28% flow 215 mm Step strength good Flexural strength MPa after 7 days after 28 days 3.82 compressive strength MPa 12.7 linear change in dimension% -0.09 Example 10 Portland cement 40.2% bauxite cement 4% gypsum casein (6% NaF) 1.2% silica 0.2% limestone powder 00 (0.25 mm) 49.6% amount of water 28% flow 220 mm step strength good mechanical Parameters after 7 days: flexural strength 2.72 MPa, compressive strength 13.3 MPa, linear Dimensional change -0.025%.

Example 11 Portland cement 40.2% bauxite cement 4% gypsum 41V% casein (with 6% NaF) 1.2% silica 0.2% sand 25% limestone powder 00 24.6% amount of water 27 ffi Flowing 220 mm step strength good Mechanical parameters after 7 days: Flexural strength 3.2 MPa, compressive strength 13.0 Mra, linear change in volume -0.04%.

For comparison, the following are the corresponding data of two commercially available products: Parameter ASM 88 Planorok (Austria) (Sweden) Amount of water% 26.3 25 Flow mm 220 250 Step strength good good Flexural strength MPa after 7 after 28 after 7 after 28 days days 4.24 4.18 - 4.59 compressive strength MPa 14.1 16.8 - 25.2 linear change in dimension% +0.18 +0.088 -0.06 0 the Flowability was measured in each case under standard conditions, i.e. with 300 g des Mixture determined on a glass plate. From the data it can be seen that the inventive smoothing screed compound partly achieves the properties of the known products, partly exceeds.

Claims (17)

Self-flowing smoothing screed compound and method for its Manufacture of claims 1. Self-flowing smoothing screed compound, which after Mixing with water gives a soot-free surface, which is a good idea indicates that it has the following composition: 36 - 45% by weight cement 45 - 58 mass% sand and / or limestone powder 2 - 5 mass% gypsum (CaSO4 1/2 H20), silica, Bentonite or mixtures thereof 1 - 3% by weight casein 0.05-0.18% by weight NaF 0-1.2 Mass% silicone oil, soda and / or hydrated lime 0 - 4.0 mass% zeolite 0 - 0.5 mass% Methyl cellulose 0 - 20% by mass of fly ash and / or ground blast furnace slag. 2. Screed compound according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that it contains portland cement as a cement component. 3. Screed compound according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that it contains high-alumina cement as the cement component. 4. Screed compound according to claim 3, d a d u r c h g e k e n n -z e i c h n e t that it contains bauxite cement as high-alumina cement. 5. Screed compound according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that it contains portland cement and bauxite cement as cement components. 6. Screed compound according to claim 5, d a d u r c h g e k e n n -z e i c h n e t that they are calculated on the amount of Portland cement 5 to 15 mass% Contains bauxite cement. 7. Screed compound according to one of claims 1 to 6, d a d u r c h g it is not noted that, based on the amount of casein, they are 5 to 6% Contains NaF. 8. Screed compound according to one of claims 1 to 7, d a d u r c h g It is not noted that the grain size of the components sand and limestone powder is at most 1 mm. 9. Screed compound according to one of claims 1 to 8, d a d u r c h g It is not noted that the grain size of the component sand is 0.1 to 0.6 mm amounts to. 10. Screed compound according to one of claims 1 to 9, d a d u r c h g It is not noted that the grain size of the limestone powder component is about 0.25 mm. 11. Screed compound according to one of claims 1 to 10, d a d u r c h It is not noted that it contains 0.2 to 0.5% by weight of silica. 12. Screed compound according to one of claims 1 to 11, d a d u r c h It is not noted that it is one day after processing with water the processing and a stand temperature of 200C a compressive strength of at least 0.5 MPa. 13. Screed compound according to one of claims 1 to 12, d a d u r c h it is not noted that it was 28 days after processing with water has a flexural strength of at least 2 MPa. 14. Screed compound according to one of claims 1 to 13, d a d u r c h it is not noted that it was 28 days after processing with water has a compressive strength of at least 10 MPa. 15. Screed compound according to one of claims 1 to 14, d a d u r c h it is not noted that they have a flowability when processed with water of at least 200 mm. 16. Process for the production of a self-fluxing, dry, smoothing screed after mixing with 20 to 30% water and applying in a layer thickness of 2 to 20 mm there is a firm, crack-free surface, which is d u r c h It is not noted that 36 - 45% by mass of cement, preferably Portland cement and / or high-alumina cement 45 - 58% by mass sand and / or limestone powder 2 - 5% by mass Gypsum (CaSO4 1/2 H20), silica, bentonite, or their mixtures 1 - 3 mass% casein, preferably technical acid casein 0.05-0.18 mass% NaF 0-1.2 mass% silicone oil, Soda and / or hydrated lime 0 - 4.0% by mass of zeolite 0 - 0.5% by mass of methyl cellulose 0 - 20% by mass of fly ash and / or ground blast furnace slag dry mixed with one another. 17. The method according to claim 16, d a d u r c h g e k e n n z e i c h -n e t that the mixing is done in a powder mixer.