DD267248A1 - HIGH-ELASTIC BUILDING MATERIAL ON POLYACRYLATE BASE - Google Patents

Abstract

The invention relates to a highly elastic building material based on polyacrylate as adhesion promoter between different building materials, especially between new and old concrete, as a layer material for Daecher, facades, Fußboeden, Verkehrsflaechen, sports facilities, as a plaster layer, repair mortar, fillers and jointing compound or as rubber-elastic concrete. By a suitable combination of known materials a highly elastic building material is to be achieved, which allows a durable adhaesive and low-tension connection to other building materials under different conditions of use. Using an acrylate copolymer of n-butyl and / or 2-ethylhexalcrylat, acrylic acid and a glycidylgruppenhaltigen vinyl monomers, with a sodium and / or ammonium salt of polyacrylic acid or polymethacrylic acid and cement, the building material according to the invention consists of a mixture of 100 parts by mass of Acrylate copolymer in which, per 100% by weight of the n-butyl and / or 2-ethylhexyl acrylate, there are known to be 0.5-10% by weight of acrylic acid and 0.1-5% by weight of the glycidyl-containing vinyl monomer, with 0, 1 to 10 parts by mass of a sodium and / or ammonium salt of polyacrylic acid or polymethacrylic acid and of cement in a mixing ratio of 1: 0.2-2.

Description

Highly elastic construction material based on poly & crylate

field of use

The invention relates to a highly elastic building material based on polyacrylate as adhesion promoter between different building materials, especially between new and old concrete, as a layer material for roofs, facades, floors, traffic areas, sports facilities, as a plaster layer, repair mortar, fillers and jointing compounds or as rubber-elastic concrete.

Description of the Prior Art There are known blends of polymer dispersions and cement for the production of mortar or concrete, which have a more or less large e ^"1 astoplastisches behavior. In the DE-PS 2,809,446 and DE-OS proposed 2,856,764 wevden mixtures from acrylic resins, pure acrylic resins, acrylic polymers, an inorganic binder, such as cement, and optionally from other additives, such as bitumen and / or plastic particles .. As polyacrylates, those with a glass transition temperature below the lowest use temperature should be used to achieve soft-elastic behavior in the temperature range guarantee.

These compounds are used to produce cementitious reinforced concrete (PCG) with improved impact resistance, but also screeds or coverings. As a result of the adhesive properties known with polyacrylates, they are furthermore to be used as a bonding or adhesion promoter layer between old concrete and / or used bitumen and a new applied mortar or concrete layer.

As carried out experiments with the material described in DE-PS 2809446 as a bonding agent between old and new concrete, the principle of Wiederverklebbarkeit a newly applied thin surface layer with old concrete after separation of the composite by internal and external stresses only a very short time, since b In each separation of the composite fine particles from old and / or new concrete are torn out and prove possible adhesion sites of the bonding layer.

to zn t 2

The analysis of the stress state in the composite system showed that the bond strength of at most 0.2 MPf achievable with CHEMCO 646 from CHEMCO-Bausysteme and Zement is insufficient to prevent the separation of the composite.

Specifically for the production of coverings on roads, bridges, sports fields, parking lots, but also ¹ 'for their rehabilitation, a binder mixture for concrete oeschrieben is described in DE-OS 2734360, which consists of cement, preferably a Portland cement, bitumen and / or coal tar unO optionally composed of a plastic in a small proportion, based on the main binder. As a plastic, a polymer or copolymer based on acrylate is also proposed here, inter alia. With this binder, the good adhesion to various substrates, such as concrete or bitumen, is appreciated.

But even here, tests with such materials have not confirmed the advantages shown. They reached z. B. not the desired tension compensation when used as a screed under the stress of Betonschwindens. In the case of such coverings, increased use temperatures continue to result in undesired adhesion effects due to the high bitumen content in the binder. Furthermore, there is the danger of swelling and dissolving kerosene on aerodromes when using such coverings. With the mentioned coverings tensions can not be reduced effectively. Therefore, it comes to the known damage patterns, such as voids and / or cracks.

In DE-OS 2840035 an acrylate-based sealant is described as an inner coating for tires, in particular for vehicle tires. It has high viscosity and good sealability at both lower and higher temperatures. In addition, it shows a very good adhesion not only to rubber but also to metals, and an extraordinary resistance to chipping. The sealant described is a polymerizable composition of a copolyer of at least one member of the group consisting of 2-ethylhexyl acrylate and n-butyl acrylate, at least one glycidyl monomer and optionally another acrylate monomer, and a crosslinking agent containing a polyacrylic acid

can be.

Object of the invention

It is a highly elastic material significantly increased cohesion strength based on Folyacrylatdispersion developed willi, which shows excellent adhesion to a variety of building materials, but in particular to concrete, good aging, Tenperaturwechsel-, water and kerosene resistant exhibit; and exposed to increased voltages.

Essence of the invention

The invention has for its object to obtain by suitable combination of known materials a highly elastic building material, which allows a durable adhesive and low-tension connection to other building materials under different conditions of use.

Using cement and a Acrylat.copolymerisates of η-butyl and / or 2-ethylhexyl acrylate, acrylic acid and a glycidyl-containing Vinyl.monomeren the object is solved according to the invention in that per 100 parts by weight of the acrylate copolymer of η-butyl and / or 2-ethylhexyl acrylate with 2 to 0.5% by weight of acrylic acid and 0.1? Mass-ί glycidy Igrupper.halt igem vinyl monomers, 0.1 to 10 parts by mass of sodium and / or ammonium salts of polyacrylic or polymethacrylic acids are mixed, this plastic modification to cement in a ratio of 1: 0.2 to 2 is included. Depending on the intended use, other known mixing components, such as bitumen, water repellents, defoamers, fibers of various types, pigments, sand, gravel, and the like may be used. a. be added as property-modifying.

The building material according to the invention is in the basic component of an aqueous dispersion and allows adjustment of the processing of soil moist to liquid. As a result of the processing of the mixture composition results in a building material that has a much higher cohesive and adhesive strength, but also better moisture, aging and chemical resistance over the prior art of the art in this area

having. These properties are created by a comprehensive networking of all substances contained. First, there is an internal crosslinking of the acrylate copolymer via the glycidyl groups. Further crosslinking is caused by the calcium of the cement. By ion exchange, insoluble calcium salts of polyacrylic or polymethacrylic acid form, with crosslinking of the individual carboxylates occurring. For these crosslinking reactions of the calcium ions, more are formed with the carboxyl groups of the acrylate copolymer.

The material combination according to the invention represents in construction technology a material previously unknown in this quality

a permanent adhesive and stress-free composite before. It is characterized by a substantially increased cohesive strength and at the same time high ductility to compensate for stresses.

The superiority over the known prior art shows the following comparison of the invention with a system of the same /.nwendungsgebietes the Fa. CHEMCO Bausysteme society m.g.H. / Austria.

On test specimens (old concrete cylinder 0 100 mm, bonding layer applied with wet layer thickness 2 mm, then applied Neubeton), the bond strength and elastic deformability and the shear strength were tested and compared under the same conditions. The following quality advantages of the invention can be seen in the comparison of the 28-day values:

Product CHEMCO 646 from CHEMCO Inventive construction systems with 55 mass parts. Cement building material to 100 mass parts. CHEMCO

Bond strength V max. 0.2 Mi'a _y = 0.8 MPa Elasticity 1,. Max. 0.5 nm in I ₁ X = 0.8 mm elast. elast.

Shear strength max. 0.35 MPa = 1.2 MPa

embodiments

In all examples, a 58% strength aqueous polyacrylate dispersion is used with the following solids content:

95 mass% n-butyl acrylate 4.5 mass% acrylic acid 0.5 mass% glycidyl methacrylate

1st bonding bridge zv / ischen old and new concrete

An airfield of concrete class 25 has traveled on the surface, so that aggregate material is exposed. First, coarse impurities such as oil, marking ink, bitumen, are removed by milling or sweeping with steel brush. It is then vorgenässt. An adhesive bridge consisting of 100 parts by weight of the aqueous polyacrylate dispersion, 6 parts by mass of 20% aqueous solution of a Na-ammonium polyacrylate and 55 parts by mass Portland cement PZ '/ 45 i "0.8, is in the compulsory mixer on site mi pre-assembled and ^J applied to a spray unit with diaphragm pump in a wet thickness of 3 mm. After approximately one hour time spent a fading poor new concrete, the polyacrylate is for modifying includes, concreted with a Gleitschaltungsfertiger in a thickness of 40 mm.

2. Renovation of a traffic area

An airfield with concrete cover with a degree of damage 1 according to TGL 38277 is to be repaired with a slurry. For this purpose, by means of a Schlämmaten a mixture of 120 kg of the aqueous polyacrylate, 6 kg of p® % aqueous solution of Na-ammonium polyacrylate, 43 kg Portland cement PZ 1/45 r 0.8, 502 kg crushed sand 0 - 2 mm and 10 kg of water produced and applied in a wet layer thickness of 4 mm in a width of 4.5 m. After a stay of 1 week, the airfield is again usable.

3. adhesive mortar

In a wet room, which is exposed to strong thermal stresses, ceramic tiles with the new material of the composition

100 parts by mass of the aqueous polyacrylate dispersion 4 parts by mass of a 20 follow aqueous solution of a sodium-ammonium polyacrylate

20 parts by mass of a 20-fig aqueous anionic bitumen emulsion containing 30% by mass of montan wax, based on bitumen content; 0 mass parts Portland cement PZ 1/45 50 Madse parts slate flour

attached to the walls. The order is carried out by means of toothed spatula. The preparation of the tiles can be done immediately thereafter, as a result of the high tackiness of the composite takes place immediately. In this case, a mechanical fixation can be omitted (except in the Uber-head area).

4. Low-dust installation mortar for "clean rooms"

Conventional cement mortar is icnsstä as mortar wear-resistant plates on floors of product ^-; the electronics th unsuitable since the stringent requirements can not be guaranteed in terms of low dust generation due to use ( "Clean Room").

The problem is solved with the mixture according to the invention as a laying mortar for such Plattenbeläge by the composition

100 parts by mass of aqueous polyacrylate dispersion

6 Mastie-Ter.le 20% aqueous solution of a sodium Ammo η ium-P ο lyacrylates

80 parts by mass Portland cement PZ 1/45 400 parts by mass of quartz sand, fraction 0/2 mm.

This laying mortar has excellent adhesion to a wide variety of tile coverings and is characterized by low dust formation due to wear, measured by BOEME wear tester. out.

5. Rubber-elastic concrete to reduce vibrations or increase toughness

A concrete consisting of the mixture according to the invention described in the aqueous polyacrylate dispersion with sodium ammonium polyacrylate, Po.vtlandzement and suitable quartzitische aggregates has over conventional cement concrete with the same strength significantly higher toughness to absorb impact energy or to reduce vibrations. Therefore, a special concrete of this kind is outstandingly suitable as a damping layer under impacting, impacting, oscillating machines.

Also as a sub-concrete of track systems as an elastic substructure, the new building material is very well suited to reduce noise and vibrations of rail vehicles.

The rubber-elastic concrete, consisting of 100 mass Tei len aqueous polyacrylate dispersion 8 parts by mass of 20% aqueous solution of a sodium ammonium Folyacrylates

40 mass parts Portland cement PZ 1 / 4D

300 parts by mass of Qurzitic aggregate, graded according to FULLER,

is processable with conventional concrete technology and achieves 70 % of its final strength after approx. 14 days.

6. Production of a sports facility

In order to keep the joint loads and the risk of injury of athletes low, an elastic training of careers and other sports facilities is required. The elastic substructure is made with the rubber-elastic concrete .Ln of a layer thickness of at least 40 mm set forth according to Example 5.

The conclusion forms a highly elastic wear layer consisting of

100 parts by mass of the aqueous polyacrylate dispersion 4 parts by mass of 20% strength aqueous solution of a sodium ammophthalocyanate 50 parts by mass Portland cement PZ 1/45,

which gives a dense and non-slip coating in a dry layer thickness of 2 mm. Depending on the technological requirements, the coating has a slurry-like to liquid consistency and can be applied either manually or mechanically.

The particular advantage of this method is that the erfindungsgeinäße mixture is used for both the substructure and the Versehleißsch ht, creating no adhesion problems in the composite arise.

Claims (2)

claims 1. A highly elastic building material based on polyacrylate with an acrylate copolymer of η-butyl and / or 2-ethylhexyl acrylate, acrylic acid and a glycidylgruppenhaltigen vinyl monomers, with a sodium and / or ammonium salt of the polyacrylic acid or Polymethacry lsäu.re and with cement, characterized in that 100 parts by mass of the acrylate copolymer in which only 100% by mass of the η-butyl and / or 2-ethylhexyl acrylate are known to contain 0.5-10% by weight of acrylic acid and 0.1-5% by weight of the glycidyl-containing vinyl monomer. .in, with 0.1 to 10 parts by mass of a sodium and / or ammonium • salt of polyacrylic acid or polymethacrylic acid mixed and this mixture with cement in a mixing ratio of ι: 0.2 to 2 are included. 2. Highly elastic polyacrylic based building material according to claim 1, characterized in that in the mixture of Aci'ylatcopolymerisat, sodium and / or ammonium salt of polyacrylic acid or polymethacrylic acid and cement known additives, such as - bitumen - water repellents - Defoamer - fibers of various kinds - pigments - Sand - gravel - grit are included.