CS232488B1 - Multipurpose elastic building material - Google Patents

Abstract

Multi-purpose plastoelastic building the mass consists of 15 to 67 wt. loose rubber filler with granulometry of 0.001 to 10 mm, 1 to 60 wt. finely ground to a fine-grained filler of an inert nature with a granulometry of 0.0001 to 4.0 mm e.g. ground limestone, quartz sand, etc. 3 to 40 wt. water-dispersing binder (e.g., thermiplastic water dispersion polymer or aqueous asphaltlate suspensions) and 3 to 60 wt. mixing water. To influence theological properties It is preferable to add 0.3 to 0.3 wt 15 wt. additives such as natrified bentonics, ground halloyite, aqueous derivatives 0.5 to 10% cellulose %, optionally 0.0001 to 4 wt. defoamers softeners, fungicides and optionally substances affecting the quality of the polymer skeletons such as white spirit and the like.

Description

The present invention relates to a multipurpose plastoelastic building material for use in the construction industry, for example as a sealing plastoelastic mortar in the joints of concrete prefabricated elements, to form a stretchable bandage replaceable layer, to coat special abrasion resistant structures or to create a layer with special effects based on their plastoelastic properties, eg non-sparking, sound insulating, etc.

In the assembly of prefabricated elements, the use of building materials or plastoelastic elements which have the ability to be compressed and to form a sealing joint adjacent to the contact surfaces of the prefabricated elements is required in some structural details of the joints.

For this purpose, the most commonly used sealing rubber profiles or sealing lines are used. Their size and shape must be different for each shape and size of the sealed joint. On contact of two surface prefabricates, the joint should be either adhered or covered with a full-cloth bandage with a textile or non-woven mat or a metal mesh strip, which then serves as a support for the final surface treatment, usually at least 10 mm thick.

This method of joint solution is quite laborious and materially demanding. Some details of the construction engineer or parts of the building are highly stressed by abrasion eg by a jet of sand in blasting boxes or in conveying routes for the transfer of bulk materials.

When using concrete or conventional plasters, they are severely damaged by erosion.

The above-mentioned disadvantages are generally eliminated by the use of the mass according to the invention. The composition is formulated as a multipurpose building material with plastoelastic properties on a binder basis (3 to 40% by weight of an aqueous dispersion, either a dispersion of a thermoplastic polymer or an aphaltolatex suspension), a dominant loose rubber filler of 15 to 67% by weight. with a granulometry of 0.001 to 10 mm (preferably in the form of flexible rods), an additional filler of 1 to 60 wt. (expanded perlin, quartz sand, ground limestone, float chalk or kaolin, power fly ash) with a granulometry of 0.0001 to 4 mm, which may also have a pigmenting character, 3 to 30 wt. mixing water and possible modifying additives (0.3 to 15% by weight), in particular modifying the rheological properties of the material, eg aqueous solutions of a thickener based on cellulose derivatives with a concentration of 0.5 to 10% by weight, precipitated amorphous silica, ground hallpyzite, natrified % bentonite and the like; and 0.0001 to 4.0 wt. antifoams, plasticizers, fungicides and possibly also substances affecting the quality of the formed polymer backbone, such as white spirit, etc.

Depending on the desired effect, the composition is applied to or into the building structure in a suitable manner, for example by spraying, stretching, pouring, etc. / and may also serve two or more functions. The methods and usefulness of the use are characterized by the following examples:

Example 1

A mass of the following composition was produced:

loose waste filler 0.1 to 10.0 mm 31.5 wt.

foundry quartz sand 0.2 to 1.5 mm 26.3 wt.

asphaltlatelate suspension containing 10 wt. % latex 31.5 wt.

water 10.7 wt.

A 1.0% ductile mass at 23 ° C and a volume change of up to 10% was applied to the joint surface of the concrete partition panel prior to assembly and a sealed joint was formed after the ceiling panel was reached.

Example 2

A mass of the following composition was produced:

waste rubber filler 0.1 to 10 mm ground limestone 0.1 to 1.6 mm titanium dioxide precipitated silica aqueous solution of carboxymethylcellulose at a concentration of 6.6% by weight, an aqueous dispersion of vinyl acetate-acrylate copolymer with a dry weight of 52% water by weight. 30% wt.

% wt. 2 wt.

% wt.

% wt. 10% wt.

Properties of the material: surface deflection of 23 mm at a kinetic load of 400 N and resistance to concentrated load is characterized by an indentation depth of 0.2.

The mass was applied by spraying onto the walls and ceiling of the sandblasting blasting box to reduce sand reflectivity and erosion of structural concrete.

Example 3

A mass of the following composition was produced:

expanded perlite 11% wt.

waste rubber filler 0.1 to 10.0 mm 34 wt.

an aqueous styrene acrylate dispersion having a dry weight of about 51 wt. 4 wt.

60% wt. 31% wt. water 20% wt.

The resulting ductility of 115% elongation at 23 ° C and a volume change of up to 10% was applied over a seamed joint of two concrete prefabricates 5 mm thick with edges to be lost in a strip approximately 250 mm wide as a plastoelastic bandage layer under surface treatment.

Example 4

A mass of the following composition was produced:

0.1 to 10.0 mm expanded perlite micronized limestone 0.001 to 1.0 mm precipitated silica bentonite natrified aqueous dispersion of polyvinyl acetate plasticized with dibutyl phthalate with a dry weight of 52 wt. aqueous solution of hydroxyethylcellulose with a dry weight of 2 wt.

dibutyl phthalate technical naphtha lacquer fungicide based on eg organotin salts such as bis tributylin oxide water

26 % wt. 1 1 % wt. 20 May % wt. 2 % wt. 2 % wt. 7 % wt. 10 % wt. 1 % wt. 0: , 9 % wt 0 , 1 % wt 20 May % wt.

This mass, which has an alpha * 67% sound absorption coefficient at 1,000 Hz, was used as a spray coating for wall sound insulation.

Example 1 d 5

A mass of the following composition was produced:

waste loose rubber filler 0.01 to 6.0 mm limestone ground 0.06 to 2 mm aqueous styrene acrylate dispersion having a dry weight of 51 wt.

% silicone antifoam expanded perlite water 18.5 wt.

% wt.

0.1 wt. 3.4 wt. 16 wt.

The resulting mixture in which the impact sound insulation 1 = 48 and the impact sound attenuation E _T = 17 was spread on the ceiling slab at a thickness of about 25 mm and after 7 days of setting it served as a soundproofing floor layer under the cement masonry.

The material according to the invention can be widely used in the construction industry, both in residential and in civil and industrial construction for special purposes.

Claims (5)

SUBJECT OF THE INVENTION 1. A multipurpose plastoelastic building material, characterized in that it consists of 15 to 15 67% wt. % of bulk rubber filler and granulometry of 0.001 to 10.0 mm, 1 to 60 wt. finely ground to fine-grained fillers of inert character with a granulometry of 0.0001 to 4.0 mm, 3 to 40 wt. % water-dispersion binder, 3 to 30 wt. mixing water and 0.3 to 15 wt. % of additives affecting the rheological properties of the mass; and 0.001 to 4.0 wt. defoamers, plasticizers, fungicides and, where appropriate, substances affecting the quality of the polymeric backbone formed,. such as white spirit and the like. Multifunctional plastoelastic building material according to claim 1, characterized in that an aqueous dispersion of natural or synthetic resin with a dry matter content of 25 to 70% by weight is used as the aqueous dispersion binder, in which the dispersed component is asphalt, petroleum pitch, tar, ester homopolymers. acetic or methacrylic acid optionally containing a secondary plasticizer, for example dibutyl phthalate and the like, copolymers of styrene, acrylic, methacrylic, maleic, acetic and the like, and combinations thereof. Multifunctional plastoelastic building material according to claim 1, characterized in that waste rubber filler is used as the rubber filler, the individual particles of this filler having the shape of flexible rods having a cross-section of 0.001 to 4.0 mm and a distance of 0.1 to 10 mm. 4. A multi-purpose plastoelastic building material according to claim 1, characterized in that: The inert filler is ground limestone, quartz sand, expanded perlite, titanium dioxide, and the like, which can simultaneously act as a pigment or pigment carrier. >. 5. A multi-purpose plastoelastic building material according to claim 1, wherein the additive affecting the rheological properties of the material is sodium bentonite, ground halloyzite, amorphous silica, an aqueous solution of cellulose derivatives at a concentration of 0.5 to 10% by weight.