DE102006038743A1 - Use of a solid composition comprising a sulfate-carrier-free Portland cement clinker flour, a cement restrainer, a cellulose ether and optionally further components, for the production of tile adhesives - Google Patents

Abstract

Use of a solid composition comprising (a) a sulfate-carrier-free Portland cement clinker flour, (b) a cement restrainer, (c) a cellulose ether and optionally further components, for the production of a tile adhesive, is claimed.

Description

Fast-curing binder mixtures based on sulfate carrier-free Portland cement clinker flour (PZ clinker flour) in conjunction with various retarder / accelerator systems are known in the prior art. So will in the DE 42 42 107 A1 a fast-curing binder mixture and its use described. This binder mixture consists of Portland cement clinker, which is ground with sulfate carriers as a retarder. In addition, the corresponding binder mixture also contains inorganic accelerators, calcium silicate organic retarders and organic calcium aluminate sulfate retarders.

Further patent applications ( DE 196 33 447 A1 . DE 199 36 093 A1 ) disclose compositions of fast-setting binder mixtures based on sulfate carrier-free Portland cement clinker powders and further additives for controlling the solidification and hardening behavior. In order to control the setting and hardening behavior, various inorganic and / or organic retarders and / or accelerators have to be added to one another in quite specific proportions. This is necessary because binder systems based on sulphate carrier-free PZ clinker flour tend to freeze very quickly if there is insufficient strength development thereafter. The aim of such binder mixtures is to achieve a rapid strength development and high early strength with a sufficiently long solidification time (processing time). However, this is not reliably achieved by the known binder systems on PZ clinker flour, since the very complex retarder / accelerator combinations are disturbed by batch-dependent fluctuations in the composition of the PZ clinker powders.

According to the DE 198 54 477 A1 describes a faster-curing binder composition based on a sulfate carrier-free PZ-Klinkermehles containing a sulfonate group-free superplasticizer as a retarder. This can be a very fast solidification (2 to 10 minutes) can be achieved with good strength development. For solidification and strength control in a time-extended range, the addition of additional accelerators and other binders is necessary.

From the DE 101 41 864 A1 is a binder mixture consisting of sulfate carrier-free Portland cement clinker fine flour with a certain particle size distribution known, which contains in addition to a structurally viscous rheology-mediating substance further Zementverzögerer. The corresponding binder mixture is used for the production of concrete and in particular its use for traffic areas. Due to the special grinding fineness of the PZ clinker refiner, the use of a complex retarder / accelerator system can be dispensed with.

All of these known binder mixtures based on Portland cement clinker are used for the production of fast-curing concrete and / or quick-setting mortar, in particular repair or spray mortar. The possibility of use in dry mortars is severely limited by the difficult control of solidification and hardening times. Ready-mixed dry mortar means prefabricated dry mix of cement as binder and other constituents, which are mixed with water at the construction site (place of use) to form a cement mortar. Thus, the use of such binder mixtures, consisting of a sulfate carrier-free PZ clinker flour in conjunction with a mortar retarder and / or accelerator in tile adhesives is not known. Tile adhesives usually consist of a binder, fillers up to a particle size of 4 mm and a complex system of various additives, the composition of the additives being tailored to the specific needs and to the fields of application of the tile adhesive. The respective additive system has a strong effect on the setting behavior of the binder system, which also includes the use of said known binder systems of sulfate carrier-free Portland cement clinker flour and retarder and / or accelerator components for use in complex mortar systems, such. As tile adhesive, limits or prevents. Cementitious tile adhesives have long been known and are for example in the publications DE 20 06 256 U1 . DE 199 57 101 A1 . DE 197 46 201 A1 . DE 195 49 441 A1 . DE 10 315 865 B3 such as DE 101 07 614 A1 described. In these patent documents solutions to various problems in tile laying are shown. However, in tile laying, there is still a need for a tile adhesive which has a long pot life and yet provides quick availability. A long processing time of the adhesive means that the adhesive mortar mixed with water retains its consistency for as long as possible, ie the mortar should long retain the properties required for mounting by means of a dental trowel and not by the incipient reaction of the binder contained therein by stiffening the application to make impossible. In addition, it should be ensured that after the adhesive bed has been applied (eg with the aid of a dental trowel) and the tile materials laid in this adhesive bed, further processing, namely grouting of the adhesive bed Tiled flooring, can be done quickly.

Of the The present invention was therefore based on the object, a tile adhesive to provide you with enough long processing time for laying the tile covering has and still one possible has fast convertibility (availability).

These Task was inventively by the use of a solid composition comprising a) sulfate-carrier-free Portland cement clinker flour, b) a mortar retarder, c) a cellulose ether, and optionally further constituents, for the production of a tile adhesive solved.

Surprisingly has become demonstrated that the combination of sulfate carrier-free Portland cement clinker flour, Mortar retarder as well Cellulose ether a sufficient long processing time with fast availability guaranteed. This is so surprising, from the state of the art it was assumed that the Use of this mixture either too fast solidification favored (short processing time) or when using too much retarder amounts (long processing time) the availability is possible very late. Next is in this combination to control the processing time and the strength development no complex and thus sensitive retarder / accelerator system necessary.

The solid composition used according to the invention thus contains at least three components a), b) and c). Component a) consists of sulfate carrier-free Portland cement clinker flour, which is usually obtained by grinding a Portland cement clinker. It is to be regarded as essential to the invention that the corresponding Portland cement clinker flour has no additives of sulfate carriers as retarder. The sulfate carrier-free Portland cement clinker meal, which has a preferred Blaine fineness of 2,000 to 20,000 cm ² / g, is preferably used in an amount of 10 to 80 parts by weight, in particular 20 to 50 parts by weight, based on the total weight of Solid composition used.

When Essential component b) contains the inventively used Solid composition on a mortar retarder Base of inorganic or organic compounds. From the group Inorganic compounds are alkali pyrophosphates, complex Phosphates, boron salts or sulfates are to be regarded as particularly preferred. In particular, polyhydroxycarboxylic acids are selected from the group of organic retarders the group of malic acid, gallic acid, gluconic, tartaric acid and citric acid or their salts or polyhydroxy compounds such as. B. sugary Lignosulfonates, sucrose, glucoses, fructoses, etc. used. The corresponding mortar retarders are known in the art and z. In the "Manual the construction chemistry "of H. Reul described. The solid composition used in the invention contains the mortar retarder preferably in an amount of 0.01 to 10 parts by weight and especially 0.1 to 5 parts by weight.

When Essential component c) contains the inventively used Solid composition of a cellulose ether, in particular selected is selected from the group of methylcellulose, methyl ethylcellulose ethers and Methylhydroxypropylcellulose. The proportion of cellulose ether in the invention used Solid composition is preferably 0.1 to 15 parts by weight and in particular 0.1 to 5 parts by weight. In addition to these three main components, the invention used Solid composition still contain other ingredients. Preferably here are still fillers in an amount of 10 to 80 parts by weight, especially 40 to 60 Parts by weight used. As fillers become the usual in tile adhesives inorganic compounds, in particular quartz, limestone, barium sulfate or mixtures thereof. According to a preferred embodiment contains the invention used Solid composition still 5 to 50 parts by weight of alumina cement. Furthermore can the invention used Solid composition still cellulose fibers with a preferred Proportion of 0.1 to 10 parts by weight and a particularly preferred Be added proportion of 0.1 to 5 parts by weight. As other possible additives can be used according to the invention Solid composition still stand improvers such. B. starch ethers and / or polyacrylamide in a preferred amount of 0.1 to 10 parts by weight contain. Furthermore you can the corresponding solid composition still latenthydraulische Substances such. B. Trass, blast furnace slag, Metakaolin etc. in a preferred amount of 3 to 30 parts by weight be added. Furthermore is recommended according to a preferred embodiment even the addition of mortar accelerators in a preferred amount of 0.1 to 5 parts by weight. As a preferred mortar accelerator in this case, a compound selected from the group silicon carbonate, Calcium carbonate, calcium nitrate, and calcium formate used.

Finally, the solid composition used in the invention may still additives for Improvement of processing properties, such. As defoamers or air entrainers are added in a preferred amount of 0.05 to 5 parts by weight. The solid composition proposed according to the invention can be mixed with water to form a pasty mortar by the customary methods. The advantages of this tile adhesive consist essentially in the fact that it has a sufficiently long processing time for laying the tile covering and still has the fastest possible further processing, ie availability. The following examples are intended to illustrate the present invention in more detail.

Examples

example 1 Sulfate carrier-free PZ Klinkermehl 50.0 Parts by weight Retarder Na-gluconate 0.1 Parts by weight cellulose ethers 0.4 Parts by weight Accelerator K carbonate 2.5 Parts by weight alumina cement 9.0 Parts by weight Filler quartz sand 37.4 Parts by weight cellulose fiber 0.6 Parts by weight

This dry mortar mixture was mixed with water to a pasty mortar. The processing time was about 1 h, ie the mortar could be 1 hour after mixing with water nor easily applied with the aid of a Zahntreufel on the ground. The mortar was applied to a concrete slab 20 minutes after mixing with water by means of a tooth trowel (6 mm toothing) and covered with stoneware tiles (10 × 10 cm). After 2 hours, the tile covering was so solidified that the tiles could no longer be moved and the jointing was easily possible. Example 2 Sulfate carrier-free PZ Klinkermehl 35.0 Parts by weight granulated blast furnace slag 15.0 Parts by weight Retarder Na-gluconate 0.1 Parts by weight cellulose ethers 0.4 Parts by weight Accelerator K carbonate 3.5 Parts by weight alumina cement 9.0 Parts by weight Filler quartz sand 36.6 Parts by weight cellulose fiber 0.4 Parts by weight

This dry mortar mixture was mixed with water to a pasty mortar. The processing time was about 1.5 h, ie the mortar could be 1.5 hours after mixing with water still be applied easily with the help of a Zahntreufel on the ground. The mortar was applied to a concrete slab 20 minutes after mixing with water by means of a tooth trowel (6 mm toothing) and covered with stoneware tiles (10 × 10 cm). After 3 hours, the tile covering was so solidified that the tiles could no longer be moved and the jointing was easily possible. Example 3 Sulfate carrier-free PZ Klinkermehl 44.0 Parts by weight Retarder Na-gluconate 15.6 Parts by weight cellulose ethers 0.2 Parts by weight Accelerator K carbonate 0.4 Parts by weight alumina cement 1.5 Parts by weight Filler quartz sand 38.0 Parts by weight cellulose fiber 0.3 Parts by weight

These Dry mortar mix became pasty with water mortar mixed. The processing time was about 0.45 h, d. H. of the mortar could 0.45 h after mixing with water still problem-free with the help of a tooth trowel on the underground be applied. The mortar was 20 minutes after mixing with water using a tooth trowel (6 mm toothing) on a concrete slab applied and covered with stoneware tiles (10 × 10 cm). After 1.5 h the tile covering was so solidified that the tiles did not let move more and the jointing easily possible was.

Claims (21)

Use of a solid composition comprising a) a sulfate carrier-free Portland cement clinker, b) a mortar retardant, c) a cellulose ether such as optionally further constituents for the production of a tile adhesive. Use according to claim 1, characterized in that the sulfate carrier-free Portland cement clinker flour has a fineness Blaine of 2,000 to 20,000 cm ² / g. Use according to claim 1 or 2, characterized that the solid composition comprises the sulfate carrier-free Portland cement clinker flour in a Amount of 10 to 80 parts by weight, preferably 20 to 50 parts by weight, contains. Use according to one of Claims 1 to 3, characterized that as a mortar retardant inorganic Connections selected from the group alkali pyrophosphates, complex phosphates, boron salts or sulfates. Use according to one of Claims 1 to 3, characterized that the mortar retardant out organic compounds based on polyhydroxycarboxylic acids selected from the group of malic acid, Gallic acid, gluconic, tartaric acid and citric acid or their salts. Use according to one of Claims 1 to 3, characterized that the mortar retardant a organic compound based on polyhydroxy compounds, such as Sugary lignosulfonates, sucrose, glucoses, Represents fructoses, etc. Use according to one of claims 1 to 6, characterized that the solid composition the mortar retarder in an amount of 0.01 to 10 parts by weight, especially 0.1 to 5 parts by weight. Use according to one of claims 1 to 7, characterized that the cellulose ether is selected is selected from the group of methylcellulose, methyl ethylcellulose ethers and Methylhydroxypropylcellulose. Use according to one of claims 1 to 8, characterized that the cellulose ether in an amount of 0.1 to 15 parts by weight, in particular from 0.1 to 5 parts by weight, based on the solids composition starts. Use according to one of claims 1 to 9, characterized in that the solid composition also fillers in an amount of 10 to 80 parts by weight, in particular 40 to 60 parts by weight, contains. Use according to one of claims 1 to 10, characterized that the fillers made of quartz, limestone, barium sulfate or mixtures thereof. Use according to one of claims 1 to 11, characterized that the solid composition still 5 to 50 parts by weight of alumina cement contains. Use according to one of claims 1 to 12, characterized that the solid composition is still cellulose fibers in one Proportion of 0.1 to 10 parts by weight, in particular 0.1 to 5 parts by weight, be added. Use according to one of claims 1 to 13, characterized that the solid composition still stand-up in one Contains from 0.1 to 10 parts by weight. Use according to claim 14, characterized that the stalwarts from starch ethers and / or polyacrylamide. Use according to one of Claims 1 to 15, characterized that the solid composition still latent hydraulic substances in an amount of 3 to 30 parts by weight. Use according to claim 16, characterized that the latent hydraulic substances made of trass, blastfurnace slag, Metakaolin, etc. exist. Use according to one of claims 1 to 17, characterized that the solid composition is still mortar accelerator in one Amount of 0.1 to 5 parts by weight contains. Use according to claim 18, characterized that as a mortar accelerator selected a connection from the group lithium carbonate, calcium carbonate, calcium nitrate as well Calcium formate used. Use according to one of claims 1 to 19, characterized that the solid composition is still additives for improvement the processing properties in an amount of 0.05 to 5 parts by weight contains. Use according to one of Claims 1 to 20, characterized that the additives from defoamers and air entraining agents.