CZ3899U1 - Damp-proof coating, particularly for bitumen roof coverings - Google Patents

Description

Waterproofing coating, especially for bitumen roofing

Technical field

The present invention relates to a waterproofing coating based on acrylic sealant for roof surfaces covered in particular with asphalt insulating strips. The waterproofing coating according to the technical solution overlaps the roof surfaces provided with bituminous surface and this material is suitable for flat and sloping roofs of both civil and industrial buildings.

BACKGROUND OF THE INVENTION

Currently, various protective layers and materials are used for surface treatment of roof coverings, but they are poorly applied especially to flat and sloping roofs of buildings or to defective surfaces, especially in extreme conditions. The existing finishes are neither sufficiently water resistant nor have sufficient elasticity.

The essence of the technical solution

The task of the technical solution is to eliminate the existing shortcomings of the surface treatments of roofing materials, in particular to improve the surface quality of bituminous bands by increasing their resistance to water and weathering. The coating can be applied to new and defective surfaces and its high elasticity ensures perfect adaptation to the expansion movements of the roofing material as the temperature changes.

The principle of the solution consists in that the waterproofing coating is formed from at least one primer layer of a material containing a homogeneous mixture composed of 3 parts by volume of acrylate one-component sealant based on an aqueous dispersion of copolymers of acrylic acid and styrene and parts of water. After the acrylic sealant has been mixed with water, both components need to be perfectly homogenized. Each additional layer of the acrylic sealant composition is applied after at least a partial drying of the previous layer, i.e. after it has wilted, which, depending on the current outdoor temperature and weather conditions, is a time delay of at least 20 to 30 minutes. The acrylic sealant primer is usually applied on a clean substrate in two layers. The consumption of acrylic sealant for the preparation of one base layer ranges from 1.1 to 1.2 kg / m ² .

In order to increase the effect of the waterproofing coating, a textile textile reinforcement can be inserted into the top layer of the uncured primer, which is subsequently coated with a new primer coat after being anchored in the top primer. The surface textile reinforcement is anchored in the top layer of the primer even after the primer has partially dried. The textile fabric reinforcement is made of artificial synthetic fibers and may preferably comprise glass fibers. In an alternative embodiment, the flat textile reinforcement is made of glass fibers, for example, by a weaving technique. The basis weight of textile reinforcement is around 250 g / m ² .

-1GB 3899 U

Another feature of the technical solution is that the anchored surface textile reinforcement provided with a dried primer coating is applied in at least one layer the final surface coating with a material containing a homogeneous mixture composed of 3 to 3.5 parts by volume acrylic one-component sealant based on an aqueous dispersion of copolymers esters of acrylic acid and styrene, and from 1.5 to 2 parts by volume of water. There is a time lag of at least 20 to 30 minutes between the application of the individual layers of the final coating.

The total consumption of acrylic sealant for the basic and final layers is between 1.7 and 2.2 kg / m ² .

By using the whole technology according to the technical solution, a waterproofing coating is created which improves the quality of the original substrate and increases the resistance and impermeability to water and resists the effects of weathering. When carrying out the actual surface treatment of roofs, the environment is not exposed to emissions of volatile substances.

Roofing with acrylic sealant can be done at air temperatures and +5 “Ca and higher. Preferably, when the composition is applied to roofing surfaces, the composition is at a temperature of 15 to 20 ° C or higher.

Examples of technical solution

Example 1

Three parts by volume of an acrylate one-component sealant based on an aqueous dispersion of acrylic acid-styrene ester copolymers were mixed with 1.5 parts by volume of water. After 3 minutes of perfect homogenization, this material was applied at an air temperature of +5 ° C to the asphalt roofing, which was free of mechanical impurities and removed all loose and separated parts of the asphalt strip. The primer was poured onto the substrate and spread evenly over the treated surface. Any visible unevenness has been removed and care should be taken not to create voids on the roof covering.

A glass fiber fabric with a basis weight of 250 g / m ² was inserted into the substrate thus prepared, and after the reinforcement was anchored, one more layer of an acrylic primer of the same composition as described above was applied. For example, a glass fiber cloth of the trade name RECO is suitable. The resulting surface was treated to be uniform, without puddles and unproven fabric.

After 30 minutes the final coating was applied with a composition of 3 parts by volume of acrylate one-component sealant based on an aqueous dispersion of copolymers of acrylic acid and styrene with 2 parts by volume of water. After 3 minutes of perfect homogenization, the prepared mastic composition was applied to the partially dried base layer containing the textile fabric reinforcement in two coats after 30 minutes.

-2GB 3899 U *

The finished treatment was checked and the layer was uniform, free of air bubbles and having the following physico-mechanical properties:

- adhesion to the base according to ČSN 673085

- water absorption according to ČSN 6730392

- resistance to temperature changes according to ČSN 673098

- bending resistance according to ČSN 673079 on 10 mm mandrel grade 1 to 2 up to 8% cycles surface intact

For example, an acrylate one-component sealant based on an aqueous dispersion of acrylic acid / styrene ester copolymers, labeled AC / L extra, is suitable.

Example 2

The bituminous roofing primer composition was prepared in accordance with Example 1. After the first primer coat had dried, which created favorable conditions for anchoring the flat reinforcement reinforcement, one more coat of this sealant composition was applied. A fabric made of glass fibers having a basis weight of 300 g / m ² was inserted into the thus prepared top base layer. The other procedure is identical to Example 1.

Claims (7)

Waterproofing coating, in particular for roofing bituminous roofing, characterized in that it comprises at least one primer layer of a material comprising a homogeneous mixture consisting of 3 parts by volume of acrylic one-component sealant based on an aqueous dispersion of acrylic acid-styrene ester copolymers and 1 to 1.5 parts by volume of water. Waterproofing coating according to claim 1, characterized in that a textile textile reinforcement is inserted into the upper layer of the uncured primer, which is subsequently coated with a primer after being anchored in the upper primer. Waterproofing coating according to claim 1 and 2, characterized in that the anchored surface textile reinforcement provided with a dried primer coating is coated in at least one layer with a material comprising a homogeneous mixture composed of 3 to 3.5 parts by volume of acrylic one-component sealant based aqueous dispersions of copolymers of acrylic acid and styrene esters, and from 1.5 to 2 parts by volume of water. Waterproofing coating according to claim 1, characterized in that there is a time lag of at least 20 to 30 minutes between application of the individual layers of the primer. CZ 3899 U The waterproofing coating according to claim 3, wherein the time between application of the individual layers of the final coating is a time lag of at least 20 to 30 minutes. Waterproofing coating according to claim 2, characterized in that the surface textile reinforcement comprises glass fibers. Waterproofing coating according to claim 2, characterized in that the surface textile reinforcement comprises glass fibers.