CS206191B1 - Hydroisolation,cementing and pasting elastic material - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to waterproofing sealant based on asphalts and rubbers that can be processed by cold technology. The bituminous materials currently produced for the formation of sealant and waterproofing coatings exhibit some unsatisfactory properties, especially at minus temperatures, eg elasticity, ductility and in some cases low adhesion to building materials.

Modifications of bituminous materials of latex will favorably increase the tackiness, ductility and elasticity of the material, but only at higher temperatures. At temperatures around 0 ° C and below freezing, the properties of these products correspond to unmodified asphalts.

Significant improvement of the above properties can be achieved by modifying the asphalt masses of the rubber with block structure. The disadvantage of this method of modification is, besides the unfavorable economic aspects, also low resistance of aging mixtures, which is given by the structure of rubbers (unsaturated polymer).

Asphalt-based putty and adhesive are characterized by comprising 30 to 70 percent by weight of asphalt, 5 to 20 percent by weight of butadiene styrene or linear-structured butyl rubber, 2 to 20 percent by weight of mineral oil characterized by a viscosity-density constant from 0.05 to 1.0.10 to 60 weight percent organic solvent and 10 to 50 weight percent organic or inorganic fillers.

In practice, a dimensionless quantity is used for chemical characterization of the oil, the so-called viscosity density constant, it is derived from the nomogram from known values of the relative oil density at 15 ° C and the kinematic viscosity in cSt at 99 ° C. Based on the viscosity-density constant, the relative molecular weight of the oil can also be read from the nomogram. Depending on the viscosity-density constant, oils can be divided into paraffinic (0.75-0.85), naphthenic, aromatic to highly aromatic (> 1).

206 191

The mineral oil, characterized by a higher degree of viscosity-density constant, acts as a softening component causing higher tackiness of the asphalt-rubber blends containing butadiene-styrene rubber. Mineral oil characterized by a lower degree of viscosity-density constant is suitable for increasing the tackiness of asphalt-rubber mixtures containing butyl rubber. Addition of organic or inorganic fillers can be used to prepare high solids materials suitable for sealing details, covering repairs, materials suitable for bonding asphalted strips, etc. Materials are workable in the temperature range from -20 ° C to 70 ° C and are flexible. inclined and vertical surfaces. The ductility of the masses after maturation and evaporation of solvents ranges from 100 to 200%, the tensile strength up to 1.5 MPa.

Exemplary mixtures of waterproofing cementing and adhesive materials.

Recipe example 1 weight percent asphalt 30 butadiene-styrene rubber 15 Dec mineral oil characterized by value viscosity-density constants 0.9 5 Asbestos fibrous 10 toluene 20 May benzine 20 May It is a formulation of a recipe suitable for the production of adhesive materials. Recipe example 2 weight percent asphalt 45 butyl rubber 5 . mineral oil characterized by value viscosity-density constants 0.8 10 calcium carbonate 20 May toluene 20 May It is a formulation of a recipe suitable for the production of waterproofing, bonding materials.

Claims (1)

SUBJECT OF THE INVENTION Hydro-insulating bonding and adhesive elastic composition characterized in that it consists of 20 to 70 weight percent asphalt, 5 to 20 weight percent butadiene styrene rubber, or butyl rubber with linear structure, 2.0 to 20 weight percent mineral oil characterized by a viscosity-density constant of 0 % To 1.0, 10 to 60% by weight of organic solvent and 10 to 50% by weight of organic or inorganic fillers.