CS270768B1 - Fire outside insulation plaster - Google Patents

Abstract

Plaster based on polymer, cement and lime binders, inorganic fibers of lime and inert fillers sweeps off the loose and liquid components that are mixed in a ratio of 1 t 0.2 before application up to 1: 1 parts by weight. Contains 3 to 18 parts by weight of expanded perlite or vermiculite with a density of 6o up to 2,000 kg / m 3 and grain size up to 4 mm, lo up to 3o parts of cement, 6 to 2b parts of oxide or calcium hydroxide, 0.1 to 2 parts in water-soluble cellulose derivative, (carboxymethylcellulose, hydroxietyloelulozy or. \ t methyloulose), 2 parts 15 parts of an aqueous dispersion thermoplastic polymer (styrene acrylate or an acrylate type polymer s a dry matter content of 38 to 55% by weight, o, 5 to 1 part of inorganic fibers of length 3 to 15 mm, 5 to 7 parts oxide-based filler siliceous or limestone, grains to 3 mm and o, ol up to 3 parts hydrophobic additive based on silicone or stearic acid salts. As a complementary component, there is a plaster contain wetting agent, defoamer, aqueous ammonia solution and fungicidal additive. 0- it has a fireproof, thermal insulation and aesthetic effects and can be applied to facades i Other common construction elements ways.

Description

The invention relates to a fireproof external insulating plaster for the building industry, applied in thicknesses of 5 to 20 mm, which protects the building against the effects of atmospheric influences, aesthetically completes the object with a grainy to coarse character, has good water vapor permeability and heat-insulating and fire-fighting effects.

Plasters are known which solve partial problems, ie fire protection or thermal insulation, protection of silicate structural elements against atmospheric influences or aesthetic level of faeads. The disadvantage of these systems is that they do not combine these effects, or only in part,

According to the general regulations in the field of fire safety of buildings, the outer surface of residential buildings should be made of non-combustible materials. Most external plasters based on organic polymeric binders do not meet this requirement.

Surface treatments in the building industry often require an external plaster, which is intended for the aesthetic completion of the outer vertical perimeter cladding in a uniform texture, but in thicknesses that vary in the range of several mm.

Materials are known which use ee for a range of thicknesses of 2 to 4 mm, 3 to 7 mm, 5 to 10 mm or 1 to 20 mm, etc. These materials, although having sufficient effects in a given thickness range, are not capable of universal applications in a larger range. thicknesses, eg 3 to 20 mm, without reducing service life or functionality.

All these requirements are met by the plaster according to the invention, the essence of which consists in that it consists of a free-flowing and liquid component in a ratio of 1: 0.2 to 1: 1 parts by weight and contains a total of 3 to 18 parts by weight of expanded perlite or vermiculite by volume. by weight of 60 to 200 kg / m 2 and grain sizes up to 4 mm, 10 to 30 parts of cement, 6 to 20 parts of calcium oxide or hydroxide, 1 to 2 parts of a water-soluble cellulose derivative (carboxymethylcellulose, hydroxyethylcellulose or methylcellulose), 2 to 15 parts of an aqueous dispersion of a thermoplastic copolymer (styrene acrylate or acrylate type polymer) with an eusin content of 38 to 55% by weight, 0.5 to 1 part of inorganic fibers with a length of 3 to 15 mm, and 5 to 70 parts of a filler based on silica or limestone up to 3 mm and up to 3 parts of a hydrophobic additive based on silicones or a salt of stearic acid. Wetting agents, defoamers and aqueous ammonia can be used as further components in amounts of up to 1 part.

The plaster according to the invention simultaneously solves the insulation of the outer vertical perimeter of the building from the point of view of fire safety, protection of the building structure against atmospheric influences with a lifespan of at least lo to 20 years depending therefore to save energy for heating and to improve thermal comfort.

The plaster according to the invention can be used in general in the construction industry for facades, but also for other structural elements which require an insulating, fire-retardant and aesthetically effective granular final surface treatment system.

The plaster according to the invention can be applied by known methods, for example by hand infection or spraying, also the treatment of the final layer by scraping according to a known procedure allows the plaster to

The plaster can be produced in stock by making a loose component and a liquid component separately; the two components are mixed in a ratio of 1: 0.2, 1: 1 just before application.

A more detailed description of the composition and design of fire insulation plaster is given in the following examples:

Example 1

The outer heat-insulating layer, made on the original panel building, had to be provided with a heat-insulating, fire-resistant, aesthetically effective layer of granular both.

CS 27o768 Bl character, applied with a machine plasterer in a thickness of 7-2 mm.

A plaster made by mixing the loose and liquid components just before application in the mixing device of the plastering machine was used in a ratio of 80 parts by weight of the loose component and 20 parts by weight of the liquid component, composition:

A. Sjgka component titanium white 1.6% by weight · limestone 0 to 1 mm 8% by weight limestone 1 to 3 mm 36.8% by weight lime hydrate volume stable 11.2% by weight cement PC 325 16% by weight wetting agent o, 16% by weight magnesium stearate 2% by weight expanded vermiculite 4.16% by weight chopped glass roving 0.08% by weight

B. Liquid component carboxymethylcellulose o, 7% by weight dispersion binder of the acrylate type (with a dry matter content of 50% - 10%) 3% by weight of defoamer o. by weight water 16.21% by weight

The consistency of the mass after mixing was adjusted to a plastic consistency by the addition of mixing water, and the mass was sprayed onto the substrate in a thickness of 5 to 15 mm. After hardening of the material, part of the surface was scraped to a flat, grainy and uniform texture.

Example 2

An older building made of brickwork had to be provided with a new facade layer. After removing the defective plaster, the substrate was first impregnated with a mixed impregnating agent and then the plaster according to the invention was applied in two layers; in this case, the first layer was applied in the places of removal of the original plaster and, after application, leveled in the face with the remnants of the well-adhering original plaster.

After a technological break, the entire surface was then coated with a plaster of the same composition, which was plastically shaped with a roller or stencil after application.

The composition of the plaster was as follows:

A. Loose component cement PC 4oo white lime hydrate volume stable hydrophobized experlite

3o parts by weight

2o parts by weight parts by weight

B. Liquid component water carboxymethylcellulose hydroxyethylcellulose or methylcellulose dispersion styrene acrylate microcrystalline silica

16.1 parts by weight of 1.0 parts by weight of 0.4 parts by weight of parts by weight

CS 270768 B1 chopped glass roving silicone hydrophobic additive 0.5 parts by weight

In both cases, the plaster had the following technical parameters:

bulk density after maturation - 3 6oo to 8oo kg.m ^J resistance to 15 freezing cycles without violation. cohesion o, 5 MPa adhesion to the substrate o, 4 MPa dispersion factor 3 degree of flammability A (non-flammable) coefficient of thermal conductivity o, o9 compressive strength ο, θ MPa '”· · flexural tensile strength 0.6 MPa

The plaster according to the invention can be successfully used in the whole field of construction, where it is necessary to combine fire-fighting, insulating and aesthetic properties, both for finished objects and for individual components and structures.

Claims (2)

OBJECT OF THE INVENTION 1. Fire-retardant external insulating plaster based on polymer, cement and lime binder, inorganic fibers, expanded and inert fillers and other additives, characterized in that ae consists of a loose component and a liquid component, which are mixed in a ratio of 1: 0.2 to 2% before application. 1: 1 parts by weight, in total containing 3 to 18 parts by weight of expanded perlite or vermiculite with a bulk density of 6o to 200 kg.m ^-3 and a grain size of up to 4 mm, 10 to 30 parts of cement, 6 to 20 parts of oxide or hydroxide calcium, 0.1 to 2 parts of a water-soluble cellulose derivative, for example carboxymethylcellulose or hydroxyethylcellulose or methylcellulose, 2 to 15 parts of an aqueous dispersion of a thermoplastic copolymer, for example styrene acrylate or acrylate-type polymer with a dry matter content of 38 to 55% by weight, 0.5 to 1% by weight. part of inorganic fibers with a length of 3 to 15 mm, 5 to 70 parts of filler based on silica or limestone grains up to 3 mm and about 0.1 part of a hydrophobic additive based on silicones or salts stearic acid. 2. Fire-retardant external insulating plaster according to claim 1, characterized in that it contains up to 1 part of wetting agent, up to 1 part of silicone defoamer and up to 1 part of a 30% aqueous ammonia solution.