DE2264075B2 - MIXING WATER TO LIQUID, PUMPABLE CONSISTENCY, MIXED MIXTURE FOR THE PRODUCTION OF SCREEDS - Google Patents

Description

and sand with a grain size of 0 to 8 mm in quantities of 350 to 500 parts by weight or sand of the Grain size 0 to 0.3 mm or 0 to 0.5 mm in amounts of 150 to 300 parts by weight and optionally contains usual stimulators or retarders and with mixing water in amounts of 60 to 100 parts by weight is prepared.

The invention relates to a mixable with mixing water to a liquid, pumpable consistency Mortar mix for the production of screeds, including cement, sand, chalk or limestone powder, Polyvinyl acetate dispersion powder, MeI-anün-formaldehyde resin or casein and optionally polyvinyl alcohol and / or sodium sulfate.

A mortar mixture of the type described is already in an older application (DT-AS 02 456) has been proposed and has changed in the composition

Parts by weight

Sand, grain size 0 to 7 mm .. 500 to 1000

Cement 100 to 200

Chalk or limestone powder .. 25 to 95 polyvinyl acetate dispersion

powder 3 to 35

Melamine formaldehyde resin as

Sodium salt of the sulfide ester 1 to 15

Polyvinyl alcohol 0.2 to 10

Sodium sulfate 0 to 5

proven. With this mixture of initially cement and sand, which is within the scope of the usual for screeds Limits is compiled, a reduction is achieved by adding the aforementioned additives of the water requirement and thus a liquefaction of the mortar achieved, with the nonetheless Sedimentation of coarse components is avoided. The modeling takes place by itself, as it were about the setting of a liquid level. At the same time, flexural strength and hardness arise with surprising Values regardless of how the mixture is made, e.g. B. you can in

ίο frame the specified composition initially Mix cement and sand and add chalk or limestone powder, polyvinyl acetate dispersion powder, Mix in the melamine-formaldehyde resin, polyvinyl alcohol and sodium sulphate and then add the mixing water. But it does exist also the possibility of first mixing cement, sand and water and then the other components to mix in. As a result, with the mortar mixture according to the earlier law, the production of

ao screeds are significantly simplified and improved, while at the same time providing a surprising strength adjust to a very uniform failure of hardness. That goes for both the use of the mixture for floating screeds as well as for the use of the mixture for composite screeds. Shrinkage behavior and setting speed or shrinkage behavior as a function of the setting speed normal cement screed, but there is room for improvement.

In addition, one knows in the construction industry (cf. Kühl, "Zementchemie", VEB-Verlag Technik Berlin, 1958, p. 760) a mixed binder based on high-alumina cement on the one hand and plaster of paris on the other. This so-called gypsum clay cement is characterized by its particularly good chemical resistance the end. A spray mortar is also known (see. DT-PS 12 11 097), which in addition to mixing water to 90 to 95 percent by weight Portland cement, 5 to 10 percent by weight high-alumina cement and off crushed anhydrite. The production of screeds is due to the existence of the mixed binders mentioned has not yet been influenced. Finally, mixtures of Portland cement are known for other purposes and anhydrite or gypsum, but these mixtures are forbidden in local practice, as Portiand cement on the one hand, anhydrite and gypsum on the other hand do not go well with each other, so that chemical reactions that lead to a drift, satisfactory hardness development and Disrupt hardening and significant cracking occurs (cf. Kühl, "Zementchemie" 1. c, p. 289).

In practice, in addition to the cement screeds described above, there are also gypsum screeds, anhydrite screeds, Mastic asphalt screeds and magnesite screeds. So screeds are basically after Different types of binder used. While known cement screeds have the disadvantage have that they can only be introduced if at certain intervals of the highest: five Meters of expansion joints so that cracking does not occur, the anhydrite or Plaster screeds do not have this disadvantage. However, this only applies if the anhydrite binder is less than 7 percent by weight Portland cement can be added as a stimulant, if otherwise there is also a risk of blowing exists (see DIN 4208, October 1962 edition). But they are not waterproof. With long-term exposure to water soften them, moreover they can

3 4

disintegrate. This is the reason why gypsum screed water is regularly dispensed in amounts of 60 to 100 parts by weight with and anhydrite screeds in practice. Be within the specified weight. It is true that with water up to parts can also be worked with sand with a grain size of 0 to 0.3 mm to a liquid consistency for mortar for or 0 to 0.5 mm in quantities of 150 to 300 parts by weight of anhydrite screed with other mortars will,
The advantages achieved are to be seen in the fact that the tation of the solids are delayed and the strength of the mixture according to the invention increases in the case of short setting-hardened mass (cf. DT-OS 19 43 634), times without disruptive shrinkage to screeds leads, but that does not change anything about the deficiencies described, which meet all the requirements from a static point of view. However, the addition of sedimenta- io does not matter whether the screeds are used as floating ion-inhibiting substances to the fact that sand of the grain screeds or as composite screeds can be used from 0 to 8 mm and the processing is extremely simple, because the invented sand does not settle. All other liquid mixtures according to the invention can be pumped without the systems, including the anhydrite and them mentioned above, sedimenting or the individual plaster of paris screeds separating from one another in the case of coarse-grained parts. It runs like a liquid sedimentation. sigkeit and thus provides a uniform level. The invention is based on the object of a, with itself It smooths the surface from mixing water to a liquid, pi'mpfable con- and at the same time forms an increased surface resistance of mixable mortar mixture for the production strength with a low-pore surface, while creating screeds that are opti- ao over them In addition, the hardness is very even, sometimes shrinkage behavior with a short setting time - it develops this uniform high hardness undefined, but nonetheless as floating, depending on the layer thickness with which the mortar screed or bonded screed is applied in static terms, the flexural strength is counterbalanced Requirements are sufficient, even in thin over conventional cement screeds significantly increased. So nen layers, and easily, especially by means of pumping or potting in relatively thin layers, can be introduced. Rigid plates and dishes preserved. In particular, the modeling should, as it were, of itself. perfect hardness even in a layer thickness of The invention consists in the fact that the mixture develops 30 under 2.5 cm. The hardness is achieved even in a Portland cement as well as anhydrite and / or gypsum as a layer thickness of less than 1 cm. Contains equal binder and that the proportion of Portland at the same time shows very good adhesion with concrete cement at least 20% and at most 50% of the subsoil. Despite the high setting speed of plaster of paris or anhydrite. The mortar mixture according to the invention is not, on the other hand, the setting speed so that the process is based on anhydrite, since it is not disturbed as an essential part of the work. In the context of the Erfin binding agent component, Portland cement contains, the manure does not matter how the mixture is prepared, especially for the final strength and its development. So you can start with cement, lung is decisive and leads to water resistance. Mix anhydrite or plaster of paris and sand and this is not observed. Although the give as well as this dry mortar afterwards with portland cement is much higher than the watering. But there is also the possible amount that an anhydrite screed, z. B. as alkalinity, first cement or anhydrite or gypsum plus see stimulants, occur in the state of the art to mix sand and water and then the other nik expressed negative effects (see cooling, 45 components to add, However, according to the preferred execution “cement chemistry” 1 c, p. 289, as well as DIN 4208), plaster of paris and anhydrite do not appear. Also sedimentation of the mixes. Usual voting chemicals can coarse grain is not observed. can easily be added.

Tried and tested, optimal results are obtained.
through that mix

Parts by weight example 1

Portland cement 30 to 75

Anhydrite and / or gypsum 70 to 150 First a mixture of 50 kg of port-

also in combination with ⁵⁵ land cement 350, 430 kg sand grain size 0 to 8 mm,

63 kg limestone powder and 80 kg anhydrite as pre-

Limestone powder or chalk 15 to 100 mixture can be made. This premix

The following additives are intimately mixed in with polyvinyl acetate dispersion: 2 kg

powder 1 to 6 stimulators, 4 kg polyvinyl acetate dispersion powder,

Melamine formaldehyde resin in 60 1.3 kg methylsulfomelamine condensate, 0.3 kg PolyForm methylsulfomelamine vinyl alcohol, 0.02 kg wetting agent, 0.2 kg sodium sulfate

Condensate or casein 0.5 to 5 fat, 0.05 methyl cellulose, 0.01 kg preservative

Polyvinyl alcohol 0 to 1 medium. The mixture produced in this way is 801

Sodium sulphate mixed with 0 to 1 water. The result is a liquid, pump-

65 capable mixture that shows no sedimentation whatsoever.

as well as sand with a grain size of 0 to 8 mm in quantities brought in as screed, the liquid mixture runs, 350 to 500 parts by weight, possibly customary, it smooths itself on the surface and de-exciters or retarder, while the pickling process has a high degree of strength as it sets

and surface hardness. In addition, there is a relatively high setting speed. A flexural strength of 26 kg / cm ^{2 is} already achieved after 7 days, and after 28 days the flexural strength is even 60 kg / cm ² .

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, 3 kg polyvinyl acetate dispersion powder, 2.9 kg methyl sulfomelamine condensate, 0.3 kg polyvinyl alcohol, 0.02 kg wetting agent, 0.2 kg sodium sulfate, 0.025 kg methyl cellulose, 0.01 preservative, 430 to 480 kg of sand of grain size from 0 to 8 mm, mixed and then mixed with 80 liters of water. Here, too, there was a liquid, pumpable mixture that did not have any Showed sedimentation.

The liquid mixture used as a screed runs, smooths itself on the surface and develops high strength and surface hardness. After the setting time of 7 days, the flexural strength is already 23 kg / cm ² . After a setting time of 28 days, the flexural strength was 75 kg / cm ² .

Claims (2)

Patent claims: 1. Mortar mixture that can be mixed with mixing water to a liquid, pumpable consistency for the production of screeds, among others Cement, sand, chalk or limestone powder, polyvinyl acetate dispersion powder, melamine-formaldehyde resin or contains casein and possibly polyvinyl alcohol and / or sodium sulfate, characterized in that it contains Portland cement and anhydrite and / or gypsum as binding agent and that the proportion of Portland cement at least 20% and at most 50% of the proportion of gypsum or anhydrite. 2. mortar mixture according to claim 1, characterized in that it Parts by weight Portland cement 30 to 75 Anhydrite and / or gypsum ... 70 to 150 also in combination with it Limestone powder or chalk 15 to 100 polyvinyl acetate Dispersible powder 1 to 6 Melamine-formaldehyde resin in the form of methylsulfomelamine condensate or Casein 0.5 to 5 Polyvinyl alcohol 0 to 1 Sodium Sulphate 0 to 1