DE2264075A1 - Mortar mix for plaster floors - giving pumpable consistency with water, contains portland cement and at least equal wt. of anhydrite or gypsum as binder for optimum shrinka - Google Patents

Abstract

The pref. compsn. is 30-80 pts. Portland cement, 70-150 pts. anhydrite and/or gypsum, 15-100 pts. limestone powder or chalk, 1-6 pts. polyvinyl acetate dispersion powder, 0.5-5 pts. melamine-formaldehyde resin in the form of methylsulphomelamine condensate or casein, 0-1 pt. polyvinyl alcohol, 0-1 pt. Na2SO4, 350-500 pts. sand with grain size 0-8 mm or 150-300 pts. sand with grain size 0-0.3 or 0-0.5 mm and opt. the usual accelerators or retarders. This is made up with 60-100 l water. This combines optimum shrinkage with short setting time, all the requirements for plaster floors and ease of pumping and casting, giving a level, closed surface with low porosity.

Description

"With mixing water to a liquid, pumpable consistency Mortar mixture for the production of screeds "The invention relates to a with Mixing water to a liquid, pumpable consistency, mixable frortel mix for the production of paints, which, among other things, cement, sand, chalk or

Limestone powder, polyvinyl acetate dispersion powder, melamine-formaldehyde resin or casein, polyvinyl alcohol and optionally sodium sulfate.

The mortar mix of the type described is the subject of one older Right (of the applicant, DT-AS 2 102 4D6.6-45) and has changed in the composition 500 - looo parts by weight of sand, grain size o - 7 mm, loo - 200 parts by weight of cement, 25 - 95 parts by weight of chalk or limestone powder, 3 - 35 parts by weight of polyvinyl acetate dispersion powder, 1 - 15 parts by weight of melamine formaldehyde resin as the sodium salt of the sulfide ester, 0.2 to 10 parts by weight of polyvinyl alcohol, 0.5 to 5 parts by weight of sodium sulphate have been tried and tested. With this mixture of initially cement and sand, which in the context of the screeds The usual limits are compiled by adding the aforementioned additives a reduction in the water requirement and thus a liquefaction of the mortar, nevertheless, the sedimentation of coarse components is avoided. The modeling takes place automatically, as it were, via the setting of a liquid ~ s. At the same time, flexural strength and hardness show surprising values a, it doesn't matter how the mixture is made, e.g. you can In the context of the specified composition, first mix cement and sand and this Premix chalk or limestone powder, polyvinyl acetate dispersion powder, melamine-formaldehyde resin, Mix in polyvinyl alcohol and sodium sulphate and then add mixing water.

But there is also the option of using cement, sand and water first to mix and then add the remaining components.

As a result, with the mortar mixture, the older law becomes the Production of screeds is much easier and better, while at the same time a surprising strength at very uniform failure of the To adjust to hardness. That goes for both the use of the mix for floating Screeds as well as for the use of the composite screed mixture.

Shrinkage behavior and setting speed or shrinkage behavior depending on the setting speed correspond to normal cement screed, however (as the invention has recognized) there is room for improvement.

Otherwise one knows in the construction industry (see cooling cement chemistry " VEB-Verlag Technik Berlin, 1958, p. 760) a mixed binder based on high-alumina cement on the one hand, plaster of paris on the other. This so-called gypsum clay cement stands out due to particularly good chemical resistance a.us. The production of screeds has not been affected by the existence of gypsum-clay cement. Finally knows Mixtures of Portland cement and anhydrite or gypsum are used for other purposes Mixtures are prohibited in local practice, however, as Portland cement is on the one side, anhydrite and gypsum hoof on the other side are incompatible, so that chemical reactions which lead to a drift develop satisfactory hardness and hardening and considerable cracking occurs (see, among others, Kühl "Zementchemie" 1. c.s. 289). That is why most countries have standard regulations Contain provisions that the maximum permissible gypsum or anhydrite content low, mostly to around. 2.5 to 3 S0 ».

In practice, there is a difference in addition to the cement screeds described at the beginning also gypsum screeds, anhydrite screeds, mastic asphalt screeds and magnesite screeds. Screeds are therefore basically differentiated according to the type of binder used. While known cement screeds have the disadvantage that they only can then be introduced if at certain intervals of a maximum of five Meters of expansion joints must be made so that tearing does not occur the anhydrite or gypsum screeds do not have this disadvantage. But they are not waterproof. With long-term exposure to water, they soften and can also they disintegrate. This is the reason why plaster screeds and anhydrite screeds are in are often rejected in practice. You can do that with water up to liquid The consistency of the mortar for an ahydrite screed also applies to other mortars Add common substances that delay the sedimentation of the solids and increase the strength of the hardened mass (cf. DT-OS 1 945 634), the does not change anything about the defects described. However, the addition leads of sedimentation-inhibiting substances, that together with a grain size of o - 8 mm are used and this sand does not settle. All other liquid systems, The anhydrite and gypsum screeds mentioned above also show when coarse grains are added Sedimentation.

The invention is based on the object of a with mixing water up to Mortar mixture that can be made into a liquid, pumpable consistency for production of screeds, which are characterized by optimal shrinkage behavior with a short setting time excellent, but nonetheless as a floating screed or bonded screed from a static point of view meets all requirements, even in thin layers, and can be introduced easily, in particular by pumping or potting can. The modeling should, as it were, automatically act as a liquid level result, while a closed, low-pore surface is established.

The invention relates to one with mixing water up to liquid, pumpable Consistency of mixable mortar mixture for the production of screeds to create, which is characterized by optimal shrinkage behavior with a short setting time, Nevertheless, as a floating screed or composite screed in static Meets all requirements, even in thin layers, and easily, can be introduced in particular by pumping or potting. Included the modeling should, as it were, automatically result as a liquid level, while a closed, pore-free surface is established.

The invention relates to one with mixing water up to liquid, pumpable Consistency of easy-to-use IvIörtelmixture for the production of screeds, which are underneath other cement, sand, chalk or lime powder, polyvinyl acetate powder, Melamine-formaldehyde resin or casein, polyvinyl alcohol and optionally sodium sulfate contains. The invention consists in that the mixture is Portland cement and in addition anhydrite in an amount which at least corresponds to the proportion by weight of portland cement and / or contains plaster of paris as a binder. According to a preferred embodiment of the invention this is coordinated so that the proportion of Portland cement is at least 20g and at most 50% of the proportion of gypsum or hydride. - Since Portland cement and anhydrite resp. Plaster of paris work together as a binder, result in using sand in the usual mixing rules for screeds for usable screeds, where the additives (chalk or limestone powder, polyvinyl acetate dispersion powder, Melarnin-Formaldehyha.rz, polyvinyl alcohol and optionally sodium sulfate) without Difficulty can be matched. There is proven, optimal results according to a preferred embodiment of the invention, that the mixture 30th - 80 parts by weight Portland cement 70 - 150 parts by weight anhydrite and / or gypsum, and also in combination with 15 - loo parts by weight of limestone powder or chalk, 1-6 parts by weight of polyvinyl acetate dispersion powder, 0.5-5 parts by weight of melamine-formaldehyde resin in the form of methylsulfomelamine condensate or casein, o - 1 part by weight of polyvinyl alcohol, o - 1 part by weight of sodium sulfate and sand with a grain size of o - 8 mm in quantities of 550 - 500 parts by weight, if necessary, the usual stimulators or retarders, - while water can be added in amounts of 60 to 100 parts by weight. in the The specified parts by weight can also be used with sand with a grain size of o - o,) or o - q5 can be used in amounts of 150-300 parts by weight. - The invention Mortar mix is not based on anhydrite as it is an essential binder Contains Portland cement, which is mainly responsible for the final strength and its development is decisive and leads to water resistance, this Portland cement content preferably higher than 20% of the gypsum or anhydrite content.

The proportion of Portland cement is therefore much higher than the amount added, which contains an anhydrite screed, e.g. as an alkaline stimulator. On the other hand lies the portland cement proportion according to the invention is usually not higher than 50% of the proportion on gypsum or anhydrite.

The advantages achieved can be seen in the fact that the inventive Mixing with short setting times without disruptive shrinkage to screeds leads that meet all static requirements, regardless of whether the screeds are used as floating screeds or as composite screeds. Processing is extremely simple because the mixture according to the invention can be pump without them sedimenting or that the individual components separate from each other separate. It runs like a liquid and thus provides an even level yourself a. It smooths itself on the surface and forms at the same time an increased surface strength with a low-pore surface, while in addition the hardness is very even. It develops this uniform high hardness regardless of the layer thickness with which the mortar mixture is applied, the Flexural strength is significantly increased compared to conventional cement screeds Rigid sheets and shells are preserved even in relatively thin layers. The mixture according to the invention is particularly suitable for the production of composite screeds because perfect hardness develops even in a layer thickness of less than 2.5 cm. The hardness is achieved even in a layer thickness of less than 1 cm.

At the same time, you have a very good bond with the concrete substrate fixed. Despite the high setting speed, cracking is not observed, on the other hand the setting speed is such that processing is not disturbed. in the In the context of the invention, it does not matter how the mixture is prepared. So you can first mix cement, anhydrite or gypsum and sand and this premix Add the above additives and this dry mortar afterwards turn on with water. But there is also the possibility of using cement or anhydrite first and plaster of paris plus sand and water to mix and then to add the remaining components In a preferred embodiment, however, plaster of paris and anhydrite are added.

Usual voting chemicals can easily be added. - Although the mixture contains anhydrite or even gypsum, those cited at the beginning are cited negative phenomena (cf.

once again Kühl "Zementchemie" l.c., p. 289) not observed.

In particular, there is no disruptive sedimentation of the coarse grain. The annoying susceptibility to the effects of water in anhydrite screeds does not occur a.

In the following the invention is based on examples from for Licher explained.

Example 1: Let us first mix 50 kg of Portland cement 350, 45o kg sand grain size o - 8 mm, 63 kg limestone powder and 80 kg anhydrite as a premix getting produced. The following additives are intimately mixed into this premix: 2 kg of exciter, 4 kg of polyvinyl acetate dispersion powder, 1.3 kg of methyls-formelamine condensate, 0.3 kg polyvinyl alcohol, 0.2 kg wetting agent, 0.2 kg sodium sulfate, 0.05 t4ethyl cellulose, o, ol kg of preservatives. The mixture produced in this way is mixed with 80 liters of water. The result is a liquid, pumpable mixture that shows no sedimentation whatsoever. When used as a screed, the liquid mixture runs and smooths itself on the surface and develops in the course of setting a high level of strength and Surface hardness. In addition, there is a relatively high setting speed. A flexural strength of 26 kg / cm2 is achieved after just 7 days, and 2 after 28 days the flexural strength is even 60 kg / cm2.

Example 2: In the one given in connection with example 1 The components were: 50 kg portland cement 550, 24 kg limestone powder, 120 kg building plaster, 0.17 kg sodium gluconate (Pasexon), 3 kg polyvinyl acetate dispersion powder, 2.9 kg methyl sulfomelamine condensate, 0.3 kg polyvinyl alcohol, 0.02 kg Wetting agents, 0.2 kg of sodium sulphate, 0.2 kg of methyl cellulose, o, ol preservative, 45o - 480 kg of sand with a grain size of o - 8 mm, mixed and then mixed with 80 liters of water. Here, too, the result was a liquid, pumpable mixture with no sedimentation whatsoever showed.

The liquid mixture used as a screed runs and smooths out by itself on the surface and develops high strength and surface hardness. After a setting time of 7 days, the flexural strength is already 25 kg / cm². After a setting time of 28 days, the flexural strength was 75 kg / cm².

Expectations:

Claims (3)

Claims: 1. With mixing water up to liquid, pumpable Consistency of paintable mortar mixture for the production of screeds, which under other cement, sand, chalk or limestone powder, polyvinyl acetate dispersion powder, Melamine-formaldehyde resin or casein, polyvinyl alcohol and optionally sodium sulfate contains that it is Portland cement and additionally in an amount that at least corresponds to the parts by weight of Portland cement, Contains anhydrite and / or gypsum as a binder. 2. mortar mixture according to claim 1, characterized in that the Share of portland cement at least 20% and at most 50% of the share of gypsum or Anhydrite. 3. Mortar mixture according to the response 1 and 2 characterized in that that they are 30-80 parts by weight Portland cement, 70-150 parts by weight anhydrite and / or Plaster of paris, and in combination with it 15 - loo parts by weight of limestone powder or Chalk, 1 - 6 parts by weight polyvinyl acetate dispersion powder, 0.5 - 5 parts by weight of melamine-formaldehyde resin in the form of methylsulfomelamine condensate or casein, o - 1 part by weight of polyvinyl alcohol, o - 1 part by weight of sodium sulfate, as well as sand with a grain size of o - 8 mm in quantities of 550 - 500 parts by weight or sand the grain size o - o,) or o - o, 5 mm in quantities of 150 - 500 parts by weight - and Contains customary stimulants or retarders, if necessary, and with water in quantities from 60 -loo 1 is turned on.