DE2948698A1 - Hydraulic mortar for sound and heat insulating tile prodn. - comprising e.g. melamine formaldehyde! resin fluidiser, Portland cement and clay binder, accelerator and sand - Google Patents

Abstract

Hydraulic mortan for tiles, partic, floating tiles, comprises (a) fluidiser based on condensn. prods. of melamine-formaldehyde and/or formaldehyde-sulphonated naphthalene and/or lignin-sulphonate; (b) binder comprised of ground mixt. of Portland cement, calcareous material contg. clay and weakly baked clayey clinker; (c) accelerator comprising 2.5-25%, w.r.t. binder, of aluminous cement, or 10-25% gypsum; and (d) washed local sand. Amt. of fluidiser, based on slaked mortan, is 0.1-0.6 (wt.)%, that of binder 15-30 %, that of sand 50-12% and that of water 1.5-20%. Tiles are usef for acoustic and thermal insulation of ceiling in multistorey buildings. Mortar has a self-compacting consistency, can be conveyed through tubular pipes, does not segregate in those pipes and during processing, and does not acquire resistance levels much higher than those required for floating tiles despite a voidless compacting.

Description

Hydraulic screed mortar

The invention relates to a hydraulically setting mortar for screeds, especially for floating screeds.

Floating screeds that improve sound and thermal insulation are used by storey separating ceilings, are mainly made of cement mortar. Other binders are either more expensive, available in limited quantities, or they have not proven themselves for floating screeds.

The principle of floating screeds is that a proportionate thin mortar layer - according to DIN 4109 from 30 or 35 mm thickness - on soft springy Insulation layers "floating" is applied so that they are at every point of the remaining parts of the structure are separated by these insulating layers; no Sound and thermal bridges are created between the screed and the rest of the building.

This thin mortar plate is required to be sufficiently high Flexural tensile strength possesses to under the later loads (on their unstable Underlay) not to break through. It must also achieve high surface strength, so that they are not "tumbled" under the often only mm-thin floor coverings due to the stress will. Furthermore, the tensile strength of the mortar board must be so high that it shrinks no cracking occurs and its surface must be evenly and smoothly, so that floor coverings can be laid directly on it without any further preparatory work. aside from that the fresh mortar of such screeds must have a texture that it makes it possible to convey it through pipelines - with pump pressure or compressed air.

To achieve all of this simultaneously and sufficiently is extraordinary difficult. Cement mortars are subject to (as in principle all cement mortars are bound by cement Building materials) the known regularities, the basis of which is the well-known rule of Water-cement value ". According to these principles, concretes (or cement mortar, which are nothing else than fine concrete) in principle easily with predeterminable Formulating and producing firmness and quality. Indispensable prerequisite for this Rule of the water-cement value (and any concrete technology derived from it) but is the complete, void-free Compression of the respective Concrete. If this is not done, then the concrete contains voids that make it stronger reduce. Because there is no way, the order of magnitude of such a void content and to measure its distribution on the installed screed or concrete, if the compression of concrete or screed is not void-free, no one can say what strength was achieved at a certain point.

Complete compaction is sufficient for concrete either through soft, self-compacting consistency achieved or through suitable energy input, z. B. tamping or shaking, which reduces the internal frictional resistance of the fresh concrete overcomes accordingly.

Floating cement screeds cannot with such energy input be compressed1 because the energy supplied is deformed by the energy below it Insulation layer is practically consumed. They are sufficiently softer and therefore more self-compacting Laying consistency was also not possible until now. You would namely screed mortar Produce with such a soft consistency that you can get your mixing water content increased, then it would segregate so much that, first of all, with every type of pipe conveyance Immediately "stuck" would occur, which made the promotion impossible, second When laying the screed, on the one hand the heavier surcharge would be different from the lighter one Cement paste, on the other hand, within the cement paste, the lighter water from the heavier Separate cement; the screed would have such a poor surface quality as a result of this segregation achieve that it would be unusable.

Another way to get a soft, self-compacting consistency, consists in not only increasing the amount of water in the water, but at the same time accordingly also the amount of cement. This would make the risk of segregation considerable (probably sufficient) soften, compared to the usual cement screed, which on average Has void contents of 10 - 20%, but pestibility increases of about 100 - effect 200%. However, increased strength means for concrete and cement mortar at the same time, the forces that occur when shrinking are increased! Because cement screed due to dehydration, i.e. shrinking from top to bottom, always step on top stronger shrinkage forces than below. If these forces are sufficiently high, then occurs with such a thin screed that they have little weight to oppose them has, concave curvature, or, in the technical language of the screed-laying trade: The screed bowls auil floating screeds, whose strength in the described Would have been wisely increased, would severely disagree that they are useless.

The same applies to screed, where the consistency-reducing effect higher cement paste dosage is completely or partially replaced by the effect accordingly Strongly acting "liquefier" (superplasticizer), with which, under certain circumstances, also self-compacting Consistency. However, the result would be the same: The strength-reducing effect The effect of the previous void content disappears and therefore the screed reaches Now the pests, the water-cement value according to the laws of concrete technology correspond. But these strengths would be so high that shrinkage forces would occur which - see above - a floating screed with the usual structure and thickness is unusable do.

The invention is therefore based on the object of a cement-bound Developing screed mortar that has a self-compacting consistency by piping can be promoted, thereby and when processing despite its soft consistency not segregated and despite cavity-free compression no significantly higher strengths achieved when they are required by cement-bound floating screeds1 so that with its shrinkage no, at least no significantly higher shrinkage forces occur that could cause curvature.

This object is achieved in that the hydraulic Screed mortar contains: As a superplasticizer: On the basis of melamine-formaldehyde condensation products and / or sulfonated formaldehyde naphthalene condensate and / or lignosulfonate or superplasticizer produced from this from probe stations.

as a binder: Portland cement ground together, clay-containing marl lime, Clay and light-fire clinker.

as accelerator: 2.5 - 25% of the binder weight of high alumina cement or 10 - 25 * plaster of paris, based on the binder weight and locally washed Sand, where the proportion of the plasticizer is 0.1-0.6% by weight, the binder 15-30% by weight *, of the sand is 50-72% by weight and of the water 7.5-20% by weight, 6.

A similar binder has become known from DE-PS 19 21 084, However, with a binder of this known composition, the creation of a floating screed is not possible because it hardens too slowly and it is insufficient Strength achieved. However, the binder used according to the invention contains one higher quality cement than the well-known binder.

This binder causes the screed mortar according to the invention to become Can be conveyed more easily and simply than any known cement mortar used for screeds and that the mortar according to the invention is a soft, flowable, completely self-compacting one Has consistency and strengths that can be precisely determined with great regularity reached the required extent over the required minimum strengths lie without curvatures (bulges) or major shrinkage stresses occur than with the known screed. This binder in connection with the mentioned Superplasticizer has a very high level of security against segregation. According to the invention produced screeds have a scratch-resistant hard surface that is both absolutely as well as being considerably harder than that in relation to the respective compressive strength the well-known screeds.

As a superplasticizer, which has a high dispersing effect, is suitable for example sulfonated formaldehyde naphthalene condensate.

This dispersing effect leads to a better distribution of the cement in the mixing water of the mortar, so that only through this better 't binder breakdown " regularly between 5 and 10% greater strength than the known comparable ones Screeds is achieved. The improved binder breakdown leads to the enlargement the "inner surface" of the cement paste and thus to a correspondingly higher surface Water retention capacity, so that with such a composite superplasticizer Screed mortar can be produced even with very high water cement values do not touch any water and remain completely free of segregation. That stabilized in this way Cement paste in connection with the aforementioned binder has the advantage that the screed mortar according to the invention produced therefrom does not separate on the one hand, on the other hand, however, the requirements described above are met without too high strengths that would lead to curvatures or shrinkage cracks. Since the aforementioned Binder has a high degree of fineness, this acts in the produced with it Screed mortar thixotropic and thus prevents eating mixtures. Also can you add larger amounts of the binder to the screed mortar according to the invention without that the strength of the mortar is too high. The one used according to the invention also yields Binder a binder glue with low heat resistance, so that the effect the above-mentioned flow agent is thereby supported.

Without the accelerator added according to the invention, one of the The above-mentioned binder produced mortar solidify relatively slowly and can only be smoothed and treated after an uneconomically long waiting period can and also make longer blocking periods necessary, which affects the progress of construction hinder. However, slow solidification and hardening increases the risk of cracking as a result of the early onset of shrinkage. By adding the invention In contrast, the accelerator increases the initial strength of the screed, whereby especially when using plaster of paris, the final strength is hardly affected. This accelerator not only accelerates the reaction process, but also especially when using plaster of paris as an accelerator, completely surprising the surface strength is again significantly improved. In addition, the shrinkage stresses and the resulting tendency for the screed to warp is reduced. In addition, 3 - 4% calcium chloride based on the binder weight can be added which also acts as an accelerator.

The screed mortar according to the invention also has the advantage that it can and cannot be made with any local, washed sand the usual requirements for grain size and grain composition of the aggregates to the screed. Another advantage is that it has a low time and energy expenditure can be mixed and promoted and become much easier, easier and faster to apply than conventional cement screed. In the end the screed produced from the screed mortar according to the invention has a significant more uniform and denser structure and therefore a more uniform strength and Stress distribution on than conventional cement screed, he reaches a comparatively high surface strength and, since the screed mortar is very Can be smoothed easily and evenly, needs to be applied to the finished screed before laying No further smoothing layer needs to be applied to the top covering.

In a preferred embodiment of the invention, the screed mortar a binder containing 25-75% by weight Portland cement, 72-20% by weight of a lime marl with at least 5% clay, 2.5 - 12% by weight of a lightly fired cement clinker (Weak fire) contains.

The burnt cement clinker is preferably Lepolo clinker with a liter weight (determined from the fraction 5 - 7 mm) of less than 1000 g per Liters, preferably 600-800 g per liter, although complete deacidification of the raw material must be guaranteed.

In one embodiment of the screed mortar according to the invention contains the binder 55 - 65 wt. * Portland cement, 36 wt.% lime marl with at least 5 wt.% Clay, 4% by weight> lightly fired Lepolo clinker brick.

The plaster of paris used as an accelerator can in one embodiment the invention 0.3 to 0.4 wt.% Of the gypsum phosphorus pentoxide be admixed. Of the The proportion of sulfonated formaldehyde-naphthalene condensation can, for example 0.53% of the underweight.

In a preferred embodiment of the invention, the screed mortar is made essentially of 21-29% binder, 52-78 s SRnd, 15-19 9 'water and 2.5 - 6.2 9 'gypsum or 0.5 - 7% calcium aluminate cement, each based on the mortar weight, plus the superplasticizer.

Claims (7)

Claims 1. Hydraulic mortar for screeds, in particular for floating screeds, characterized in that it contains: as a superplasticizer: On the basis of melamine-formaldehyde condensation products and / or sulfonated Formaldehyde naphthalene condensate and / or lignosulphonate or from condensations superplasticizer produced from this. as a binder: ground Portland cement, clayey marl lime, Clay and light-fired clinker as an accelerator: 2.5 - 25% of the binder weight, high-alumina cement or 10 to 25% plaster of paris, based on the binder weight and locally washed Sand, where the proportion of the plasticizer is 0.1-0.6% by weight, the binder 15-30% by weight, of the sand 50-72% by weight and of the water 7.5-20% by weight of the prepared mortar amounts to. 2. Screed mortar according to claim 1, characterized in that the Binder 25-75% by weight Portland cement, 72-20% by weight of a lime marl with at least 5 clay content, 2.5 - 12 wt. US of a lightly fired cement clinker (each based on the binder weight). 3. Screed mortar according to claim 1 or 2, characterized in that the binder 55-65 wt. 3 / o Portland cement, 36 wt.% lime marl with at least 5 Contains wt.% Clay, 4 wt.% Lightly fired Lepolo clinker. 4. Screed mortar according to one of the preceding claims, characterized characterized in that sulfonated formaldehyde-naphthalene condensate as a flow agent is used. 5. screed mortar according to claim 4, characterized in that the Proportion of sulfonated formaldehyde-naphthalene condensate 0.5 - 1.5 9 'of the binder weight amounts to. 6. Screed mortar according to one of the preceding claims, characterized characterized in that the accelerator contains calcium chloride. 7. Screed mortar according to one of the preceding claims, characterized characterized in that the gypsum used as an accelerator 0.3-0.4 wt.% of the Phosphorus pentoxide is mixed in with gypsum.