DD277277A1 - METHOD FOR PRODUCING BUILDING MATERIAL MIXTURES ON ALKALIMETALLSILICATE BASE - Google Patents

Abstract

The invention relates to the production of building material mixtures based on alkali metal silicate for element production, for the production of coating materials and multilayer elements which are exposed to aggressive acidic media or those with high humidity, but also as a diffusion-tight adhesive on masonry, plaster, concrete. According to the invention, an anionically stabilized bitumen emulsion with 40-52% solid content is mixed with an aqueous alkali metal silicate solution, with an acid-hydrolyzable salt or salt mixture of phosphoric acid, hexafluorosilicic acid, the hydrofluoric acid of highly disperse silica sols, with an anionically stabilized polymer dispersion having a 455% solids content and optionally with fillers in a mass ratio of 1: 0.1 to 2.8: 0.2 to 2.4: 0.09 to 2.5: 0.1 to 4.8. The invention causes a good stickiness while maintaining the shape of the mixture a good moisture and heat resistance, high resistance to aggressive acid media. The building material produced according to the invention can be exposed to strong mechanical loads.

Description

field of use

The invention relates to the production of building material mixtures based on alkali metal silicate for element production, such as plates, bricks, shingles, for the production of coating materials and multilayer elements which are exposed to aggressive acidic media or those with high humidity, but also as a diffusion-tight adhesive on masonry, plaster, concrete u. ä.

Characteristic of the known state of the art

Processes for the production of acid and moisture resistant structures based on alkali metal silicate solutions (water glass) are known using mineral flour as inorganic fillers and suitable setting accelerators which react with waterglass, and of polymer aggregates. In DE-AS 1181113 and EP 0053296 the production of foam bodies is described from water glass, wherein the foaming is carried out by propellant gas or mechanically. In DE-AS 1181113 are used as mineral flour z. Asesite, granite, but also ground waste of chemical stoneware and fireclay bricks used. Silicofluorides, sulfochlorides, esters of fatty acids or of glycerol serve as suitable setting accelerators for water glass. The addition of sodium methacrylate copolymers with polymethylmethacrylate serves exclusively to regulate the pore structure. In EP 0053296, the addition of a latex natural dispersion serves to increase the strength resistance by directly incorporating the latex into the foam framework contained in waterglass, fillers, wetting agents and hardeners. In DD-WP 255484 a water glass mixture for the production of a protective coating or protective coating of containers and pipes is disclosed in which a known mixture a difficult or unsaponifiable polymer having thixotropic properties, eg. As a polyacrylate, is added, whereby a uniformly distributed coating is achieved by the spin coating process and the polyacrylate can be removed as foam from the surface again.

From the latter patent it is particularly evident that the added polymer dispersion in the known water glass mixture tend to foam and form a stable foam scaffold. The foams produced in the invention DE-AS 1181113 and EP 0053296 by propellant gas or mechanical action are required by such polymer additives and give the building material by simultaneous film formation a water impermeability and pore stability.

DD-WP 44824 describes a bituminous adhesive for bonding work in construction, which is temporarily converted into a bituminous adhesive emulsion for better processing, to which suitable emulsifiers, such as casein or clay flour, are added in conjunction with water. In the emulsion phase, the adhesive effect is temporarily removed. To ensure sufficient stability of the bituminous adhesive emulsion of the mixture stabilizing substances such. As water glass, glycerol o. Ä. Added. Water glass serves at the same time as the addition of emulsified synthetic or natural resins, for example bitumen resin, polyester resin, polyvinyl acetate dispersion as an additional adhesive.

Bituminous adhesives modified with other polymers, such as by addition of rubber latex or other plastic dispersions, contain a number of invention descriptions (DD-WP 214853, DE-OS 2014036, DE-OS 2041 539, DE-OS 2723948, DE-OS 2735823)

 The adhesion of these adhesives is based on pure adhesion.

Object of the invention

With the invention, a building material mixture is to be developed, which can be further processed for acid and water resistant as well as moisture-repellent or moisture-impermeable construction materials in the form of plates, bricks, coating materials, but also as an adhesive or compound by known technological steps.

Essence of the invention

The invention has for its object to produce building material mixtures alkali metal silicate based with increased acid and moisture resistance, in which both good adhesion forces, cohesive forces and chemical bonds are formed into siliceous substances that are crucial for versatile coating and / or adhesives.

Using alkali metal silicate as a binder, an inorganic hardener, an aqueous polymer dispersion and with or without inorganic fillers, the object is achieved in that an anionically stabilized bitumen emulsion with 40 ... 52% solid content is mixed with an alkali metal silicate solution with the molar ratios SiO ₂ : Me ₂ O = 3 to 3.5 (Me = sodium, potassium), with an acid-hydrolyzable salt or salt mixture of phosphoric acid, hexafluorosilicic acid, hydrofluoric acid or highly disperse silica sols and with an anionically stabilized polymer dispersion having a 45 ± 5 % solids and optionally with fillers in a mass ratio of 1: 0.1 to 2.8: 0.2 to 2.4: 0.09 to 2.5: 0.1 to 4.8.

In the hydrolyzable salts or salt mixtures are phosphates of aluminum, iron, manganese, hexafluorosilicates of alkaline earths and / or alkalis and ammonia, fluorides of boron, aluminum into consideration. They possess the already known properties, with calcium ions and amorphous silica to form sparingly soluble compounds, which leads to the curing of the silica compounds and when combined with concrete, a chemically anchoring adhesion to this is achieved, at the same time the pores of the concrete are anchored with the sparingly soluble compounds and sealed. These salts are also capable of breaking the anionically stabilized bitumen emulsion as well as other polymer dispersions very rapidly. The lowering of the pH increases the stickiness of the bitumen and improves the dimensional stability. It form bitumen-modified adhesive bridges, which greatly increase the cohesive forces within the building material mixture, but also strongly increase adhesion forces, in particular the adhesion-improving effect to concrete and other rock building materials.

Bitumen itself is characterized by good aging resistance and water resistance. The problem-free incorporation of the bitumen emulsion in another anionically stabilized polymer dispersion causes improved moisture resistance of the overall mixture. Conversely, the heat resistance of the bitumen is substantially increased by the very finely divided silicates, fluorides, phosphates formed.

The shown interactions of the mixture components with each other can form a dense building material, which has a high resistance to aggressive acidic and humid media, which can be exposed to strong mechanical and compressive loads, in the uncured state has excellent adhesion and resistance to deformation and surprisingly after curing high anchoring forces both within the building material and to other rock building materials.

The bonding of the new building material mixture to other substrates, mainly to concrete, can be increased in such a way that the substrate is wetted before coating with the hydrolyzing salt or salt mixture.

embodiments

1. adhesive layer between waterglass mortar and cement concrete

Protection of flue gas ducts made of cement concrete against the sulfuric acid flue gas atmosphere provides an acid and temperature-resistant Wasserglasmörtel certain composition, which is connected by the new mixture with the cement concrete quality and at the same time increases the protection.

The formation of the layer between the cement-bound shell concrete and the waterglass mortar is carried out depending on the dimensioning and plant engineering project as insulation, adhesive, insulating or ventilation layer.

A mix of

35 parts by weight of water glass

35 parts by weight of bitumen latex emulsion

10 parts by weight of sodium fluoride

20 parts by mass of porcelain flour, the 35 parts by weight of bitumen latex emulsion

8% bitumen emulsion and

2% latex dispersion is made up

applied the cement concrete. After this layer has been hardened, the waterglass mortar is applied, resulting in a very good bond between the three layers, as well as compensating for the different shrinkage behavior of waterglass mortar and cement concrete as a result of the new adhesive layer and condensates increase the protection of the shell concrete, and any defects in the structure of the water glass mortar and their negative effects do not take effect.

2. Sealing coatings on concrete surfaces

The concrete surface is pretreated with a saturated solution of MgSiF ₆ and then a mixture of 100 parts by mass in% anionically emulsified bitumen emulsion with a solids content of 49 ± 2%.

35% by weight in% of anionically stabilized latex of a copolymer of butadiene, styrene and an a-ß-

unsaturated carbonic acid

28% by weight in% Sodium silicate solution having a density of 1.39 g / cm ³ 18% by weight slate flour 8.5% by weight sodium silicofluoride solution 1.5% by weight magnesium silicofluoride solution. The fluorosilicates are mixed with the other components just prior to processing.

3. Coating the sealing of silicate building materials and primer for paints

100% by weight in% anionic (KOH) stabilized bitumen emulsion with a solids content of 49 ± 2%

% By weight potassium silicate solution (K ₂ O = SiO ₂ = 1: 3.3 to 1: 3.7) 12 parts by weight in% saturated Al ₃ PO ₄ solution 0.5 parts by weight in% BF ₃ 0.8 parts by weight in% Zn ₃ (PO ₄ ) ₂ solution saturated.

The preparation of the mixture is carried out by homogenizing the potassium silicate solution with the bitumen emulsion, the phosphates and BF ₃ are added immediately before processing or homogenized in the mixing nozzle of the sprayer.

4. Spatula or joint sealing compound

100 parts by weight in% of anionically stabilized bitumen emulsion 45 parts by weight in% acrylic dispersion type D343; 48 ± 1% solids content 32 parts by weight in% silica sol 21.5 parts by weight slate flour 10 parts by weight in% filter ash 2.5 parts by weight in% water

All solid components are made up with water and then added in the order bitumen emulsion, acrylate dispersion and silica sol.

5. Production of a concrete

10 parts by weight in% anionically stabilized bitumen emulsion 5% by weight sodium water glass 5% by weight potassium water glass 5% by weight B PO ₄ 12% by weight concrete gravel sand 0-2 mm 14% by weight concrete gravel 2-8mm 9% by weight concrete gravel 8-16mm.

The homogenization is carried out in a forced mixer, in which sand 0-16 prescribed, water glass and bitumen emulsion are added. After about 8-10 minutes of mixing, hardener is added and mixed again for 2-3 minutes.

6. Preparation of an insulating mixture 12.2% by weight of sodium silicate 14.2% by weight of anionically stabilized bitumen emulsion 1.5 parts by weight in% B PO ₄ 1.5 parts by weight in% AIPO ₄ 45.0 parts by weight in% foamed granulated waste plastics The foamed plastic waste are mixed with the indicated amounts of water glass and bitumen emulsion in a tumbler mixer for about 10 minutes, then the hardener components are mixed in, and the mixture is cured in the appropriate molds.

Claims (3)

claims: 1. A process for the preparation of building material mixtures based on silicate using alkali metal silicate as a binder, an inorganic hardener, an aqueous polymer dispersion and with or without inorganic fillers, characterized in that an anionically stabilized bitumen emulsion with 40-52% solid content is mixed with an aqueous alkali metal silicate solution of the molar ratios SiO ₂ : Me ₂ O: 3 to 3.5 (Me = sodium, potassium) with an acid-hydrolyzable salt or salt mixture of phosphoric acid, hexafluorosilicic acid, hydrofluoric acid, of finely divided silica sols, with an anionically stabilized polymer dispersion having a 45 ± 5% solids content - optionally with fillers
in a mass ratio of 1: 0.1 to 2.8: 0.2 to 2.4: 0.09 to 2.5: 0.1 to 4.8. 2. The method according to claim 1, characterized in that phosphates of aluminum, iron, manganese, hexafluorosilicates of alkaline earth metals and / or alkali metals and of ammonia, fluorides of boron, aluminum alone or in admixture are used as hydrolyzable salts. 3. The method according to claim 1, characterized in that an acrylate dispersion or a butadiene latex dispersion is used as anionically stabilized polymer dispersion.