HU221987B1 - Post hardening two-component coating composition - Google Patents

Abstract

The characteristic of the solution is that the primary component group is 35–40% by weight of fast-setting Portland cement with a specific surface area of 500 m2/kg, 35–40% by weight of quartz sand with a maximum particle size of 1 mm, 0.5–5% by weight of boric acid or citric acid as a binding retarder, surface tension reducer contains 0.5–3% by weight of tripolyphosphate as an additive, as well as one or more texture-improving additives, the secondary component group contains 42–61% by weight of acrylate copolymer and 39–58% by weight of water as a solvent, the ratio of the primary component group to the secondary component group is 1, 2 to 2.6:1. ŕ

Description

EXTRACT

A feature of the solution is that the primary constituent group is 35-40% by weight of quick-setting Portland cement with a specific surface area of 500 m ² / kg, 35-40% by weight of quartz sand up to a maximum particle size of 0.5mm, or 5-5% by weight boric acid or citric acid. as a surface tension reducing additive

Containing from 0.5 to 3% by weight of tripolyphosphate and one or more adjuvants, the secondary constituent group contains from 42 to 61% by weight of acrylate copolymer and from 39 to 58% by weight of water as solvent and the ratio by weight of the primary constituent group to the secondary constituent group is 1, 2-2,6: 1st

The scope of the description is 4 pages σ>

HU 221 987 Β1

I

FIELD OF THE INVENTION The present invention relates to a post-solidifying two-component coating composition for protecting surfaces of bodies which is a mixture of a solid primary component comprising a cement powder and quartz sand and admixtures and a liquid secondary component comprising a polymer dispersion.

Recently, the over-dimensioning of the concrete structures of various buildings has been significantly reduced due to material savings and a change in design approach. As a result, the protection of concrete surfaces 10 and reinforced concrete reinforcement against environmental influences has become significantly more important.

Several concrete protection compositions and processes have become known for various external influences, such as carbonation, acidic acidity due to the carbon and sulfur dioxide content of the air, and the corrosion effects of concrete with mineral salts. A common feature of these is that an externally curing coating 20 is applied to the exterior surface of the concrete, which, once cured, forms a closed surface layer and adheres to the exterior surface of the concrete to prevent further damage.

Various paint and plastic coatings, sheet top coatings and bitumen based preservatives are also used for protection.

However, the disadvantage of paint layers and plastic coatings is that the thin film, especially when subjected to abrasion and use, will fail in a short period of time and thus will not protect the concrete surface to the desired extent.

A further disadvantage of such solutions is that due to the differences in the physical parameters of the coating layer and the concrete, and consequently to the varying degrees of periodic heat expansion and shrinkage, the coating layers are cracked, ruptured and thus no longer able to fulfill their protective function.

The disadvantage of bitumen-based coatings is that, after a while, they age, lose their elasticity and, when rolled up, also open up the path to the concrete surface for harmful substances.

A further general disadvantage of commonly used materials is that their composition contaminates the environment, which can lead to undesirable side effects.

It is also disadvantageous that the use of known coatings requires heavy labor costs and the coating has a long drying time, which is a problem especially when repairing existing facilities.

Examples of well-known concrete corrosion protection solutions are Tibor Budai: "Curriculum for the Continuing Education Course in Concrete Technology" (ÉVTI Continuing Education Center, Budapest, 1978, p. 38) and Dr. György Balázs 55: "Building Materials and Chemistry" (Tankönyvkiadó, Budapest) 267-281 (1988), 328).

SUMMARY OF THE INVENTION The object of the present invention is to overcome the shortcomings of known coatings and to provide a post-curing composition which is elastic, has a short cure time, has good adhesion to various concrete surfaces and has physical properties close to the concrete.

The invention has led to the discovery that if cement and sand with appropriate properties and an aqueous dispersion of a suitable adhesive are mixed in a specific ratio, the water retained by the adhesive cannot evaporate and the cement can continue to obtain this adhesive during the setting time. For "stored" water, while the adhesive is able to fill the pores of the concrete layer, it binds to it and consequently a good sealing, good adhesion, fast curing coating can be created on different concrete surfaces.

According to an object of the present invention, the post-solidifying two-component coating composition composition for protecting the surface of a body comprising a mixture of a solid primary ingredient comprising cement powder and quartz sand and admixtures and a polymeric dispersion comprising a liquid secondary ingredient is: 35-40% by weight of quick-setting Portland cement with a specific surface area of 500 m ² / kg, 35-40% by weight of quartz sand with a maximum particle size of 1 mm or less, 0.5-5% by weight of boric or citric acid as a binder, 0.5-3% by surface tension reducing agent containing by weight of tripolyphosphate and one or more adjuvants, the secondary ingredient containing from 42 to 61% by weight of a copolymer of acrylate and 39 to 58% by weight of water as solvent, and having a weight ratio of primary to secondary of 1,2 to 2,6: 1. .

A further feature of the coating composition of the present invention may be that the secondary ingredient comprises an antifoam additive such as Byk 033 or Aditol XW 376. Byk 033 additives are manufactured by (Byk-Chemic. GmbH DE), Aditol (manufactured by Wianova GmbH DE).

In another formulation of the coating composition, the secondary component comprises an anti-mold additive such as Busan 1060 (aqueous acrylate or acrylate copolymer).

It may be advantageous for the composition that the primary ingredient contains from 0 to 15% by weight of a silicate as an adjuvant. The primary ingredient contains 0-15% by weight of titanium dioxide as a color tone stabilizer.

In another variation of the coating composition, the primary component is supplemented with one or more cement-compatible pigment dyes.

The most important advantage of the post-curing two-component coating material according to the invention is that the powdered solid phase and the aqueous dispersion mixed together in the appropriate proportions form a fast-setting, tightly-bonded, possibly flexible resilient coating layer with physical parameters such as expansion and shrinkage. is very similar to the characteristics of the concrete surface to be protected, and thus the coating layer and the body to be protected work together.

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HU 221 987 Β1

The advantage of the above is that due to the resilience of the coating layer and its UV-resistance, it is not compacted and peeled and thus can provide the desired protection to the concrete surface for a considerably longer time than usual.

It is also to be considered an advantage that due to the high wear resistance of the specific composition of the coating composition, it can also be used to protect concrete surfaces which could not be effectively protected due to high stress. 10

It is also an advantage that the preparation and application of the coating layer does not require any special tools and special technology, and even the short curing time can be reduced compared to conventional processes, which is especially important in cases where an essential requirement in the case of works of art relating to traffic routes.

It is also advantageous that the coating material does not contain any substances harmful to the environment, either in its components or in its entirety, so that its use is environmentally friendly compared to conventional solutions.

The invention will now be described in more detail by way of examples.

Example 1

As a primary component of the two-component coating composition, 35% by weight of quick-setting Portland cement with a specific surface area of 650 m ² / kg, 35% by weight

Quartz sand having a particle size of less than 0.8 mm, 3 wt% tripolyphosphate, 2.5 wt% boric acid, 12 wt% silicate and 12.5 wt% titanium dioxide were mixed as follows.

First, the color-stabilizing 12.5% by weight of titanium dioxide and the binding time-increasing 2.5% by weight of boric acid were thoroughly mixed with a small amount of 35 quartz sand, followed by 35% by weight Portland cement, residual quartz sand, 3% by weight tripolyphosphate and 12% by weight silicate. , as a plasticizer, was poured into a mixing mill to form a homogeneous mixture 40.

Regardless of the preparation of the primary ingredient, a liquid secondary ingredient containing 50% by weight of acrylate copolymer and 50% by weight of water is simultaneously produced. 45

The primary component and secondary component were filled into suitable containers. In use, the solid powder primary component and the liquid secondary component separately transported to the site of work are combined into a suitable vessel so that the weight ratio of primary component to secondary component is 1.8: 1. The vessel and the solid phase are agitated in the vessel by low speed mechanical agitation for approx. After stirring for 5 minutes, a well-handling, easy-to-spread mixture was applied, which was applied within 30 minutes to the surface to be protected, of course, after appropriate pre-treatment and preparation.

Upon examination of the coating, it was found that after 12 hours, the post-curing two-component coating material had solidified and had a limited loading capacity. After about 6 days, the coated surface was fully exposed.

The coating composition of the present composition exhibited excellent elasticity and thus, even in the case of displaceable surface elements, also provided adequate bridging capability to protect the concrete surface in the area of limited growth of cracks.

Example 2% by weight of Portland cement specific surface area of 500 m ² / kg, also about 40 wt% silica sand with a particle size not exceeding 1 mm was prepared with 5% citric acid, 0.5% by weight sodium tripolyphosphate and 15% by weight silica, and its primary component, a composition comprising a colorant pigtnentanyagot away

As in Example 1. Secondly, a polymer dispersion containing 42% by weight of acrylate copolymer and 58% by weight of water was mixed with Busan 1060 as an antifouling additive and Aditol XW 376 as an antifoam additive. As in Example 1, it was blended with the primary component composition so that the weight ratio of primary component to secondary component was 2.3: 1.

The coating produced and applied in this manner formed a hard, rigid, high mechanical load bearing coating and was found to be particularly suitable for the protection of surfaces where the relative displacement or value was minimal.

The post-solidifying two-component coating material of the present invention is well suited for the protection of particularly concrete bodies, but can be used to coat the surface of metal and other partition walls both indoors and outdoors.

Claims (6)

PATIENT INDIVIDUAL POINTS 1. A post-hardening two-component coating composition to protect the surface of bodies, which is a mixture of a silicate-containing primary component and a polymeric dispersion containing a polymeric dispersion containing silica powder and quartz sand and additives, characterized in that the primary component is 35-40% by weight of 500 m ² / kg specific surface fast-binding Portland cement, quartz sand with a maximum grain size of 35-40%, maximum grain size up to 1mm, 0.5-5% boric acid or citric acid as a binder, 0.5-3% tripolyphosphate as a surface tension reducing additive, and one or more additive additives containing from 42 to 61% by weight of acrylate copolymer and from 39 to 58% by weight of water as solvent, the weight ratio of the primary component to the secondary component is 1,2-2,6: 1. 2. The coating composition of claim 1, wherein the secondary ingredient comprises an antifoam additive such as Byk 033 or Aditol XW 376. EN 221,987 B1 Coating composition according to claim 1 or 2, characterized in that the secondary ingredient comprises an anti-mold additive, for example Busan 1060. 4. The 1 -3. A coating composition according to any one of claims 1 to 3, characterized in that the primary ingredient group contains 0-15% silicate as a adjuvant. 5. A coating composition according to any one of claims 1 to 4, characterized in that the primary component comprises 0-15% by weight of titanium dioxide as a color tone stabilizer. 6. A coating composition according to any one of claims 1 to 3, characterized in that the primary component group is supplemented with one or more cement-compatible pigment dyes. Published by the Hungarian Patent Office, Budapest Responsible for release: Zsuzsanna Törőcsik Deputy Head of Department Windor Bt., Budapest