CS230819B1 - Reflective hydroinsulating ekastic substance on base rubber,asphalt and aluminium powder - Google Patents

Abstract

The class of reflective waterproofing compound based on rubber, asphalt and aluminum powder is the creation of a flexible, reflective, protective coating on flat roofs as well as other parts of the building structure. DETAILED DESCRIPTION OF THE INVENTION The subject of the invention is a reflective waterproofing compound based on rubber, asphalt and aluminum powder, characterized in that it comprises 3 to 15% by weight of butadiene-styrene rubber or butyl rubber, 30 to 50% by weight. % of asphalt, 2.0 to 20 wt. % mineral oil characterized by a viscosity constant of from 0.75 to 1.0, 30 to 60% by weight. % of an organic solvent, 3 to 10 wt. % of the aluminum powder and optionally as an anti-corrosion additive contains 0.5 to 5.0 wt. lead orthophosphite or imidazoline derivative.

Description

The invention relates to a reflective waterproofing elastic material based on rubber, asphalt and aluminum powder, suitable for surface treatment.

The decisive importance of the reflective finishes is that they form a sealing cladding to retard evaporation of light fractions from the bituminous material and thereby prolong the cracking of the top layer of asphalt cladding.

Dissolved bituminous reflective coatings in combination with aluminum powder and e have some unsatisfactory properties. They create a very thin sealing cover and low flexibility, with limited efficiency and no waterproofing effect. They do not show protective efficacy on β asphalts.

Although the reflective sealant creates a better protective coating, it is not flexible and its waterproofing function is also minimal. When applying reflective coatings on aged flooring, it must be used in combination with waterproofing bituminous materials.

These drawbacks overcome the subject matter of the invention, which is a reflective waterproofing elastic material based on rubber, asphalt, aluminum powder and optionally an anti-corrosion additive, characterized in that it consists of 3 to 15% by weight of butadiene-styrene rubber or butyl rubber, 30 to 50% by weight. 2.0 to 20 wt. % mineral oil characterized by a wax-density constant of from 0.75 to 1.0, 30 to 60 wt. % organic solvent, 3-10 wt. % of aluminum powder and optionally 0.5 to 5.0 wt. lead orthooleate or imidazoline derivative.

The weathering resistance of the reflective coatings is then determined by the type of rubber used and the unsaturated polymer (SBR) to the high-saturation polymer (butyl rubber) increases in the series. From the technical and economical point of view it is possible to combine these types of rubbers to achieve the desired properties of the paints. Paints based on butadiene styrene rubber can be used for surface treatment of materials for indoor and outdoor applications and where long-term resistance to atmospheric aging is not required. Butyl rubber-based paints are characterized by very good adhesion to a wide variety of substrates, fully meeting the requirements for long-term durability. In the formulation of the composition of the paint based on rubber and asphalt with a reflective treatment, experience was used in the preparation of materials according to MS. No. 206191.

In technical practice, a dimensionless quantity is used to characterize mineral oils, the so-called viscosity-density constant, which is derived from the nomogram from known values, the relative oil density at 15 ° C and the kinematic viscosity at 90 ° C. Depending on the viscosity-density constant, oils can be divided into paraffinic (value 0.75 to 0.85), naphthenic, aromatic to highly aromatic (value> 1). Mineral oil characterized by a higher degree of viscosity-density constant acts as a softening component causing higher tackiness of the rubber-asphalt mixtures containing butadiene styrene rubber, a mineral oil characterized by a lower degree of viscosity-density constants is suitable for increasing the tackiness of the rubber-asphalt-containing rubber mixtures.

The reflective effect was achieved by the addition of fine aluminum dust, which can also be dosed in the form of a suspension in aromatic hydrocarbons with the addition of additives allowing good workability of these pastes. The pastes usually have a dry matter content of about 60%, the particle size can be, for example, characterized by a value of 0.071 (the remainder per mesh). The addition of aluminum dust (leaf-shaped grain) significantly increases the weathering resistance of the coating.

By adding lead orthoolite or an organic inhibitor, such as imidazole derivatives (1, -beta-aminoethyl-2-alkenyl-imidazoline), anti-corrosion coatings suitable for the protection of metal structures such as flashing and the like can be produced.

Reflective coatings are workable in the temperature range from -15 o to o + ju c, after evaporation of solvents and drying they are flexible and do not run down from vertical surfaces in the temperature range from -20 ° C to +70 ° C. Coating materials according to the used rubber can be used for surface treatment of new asphalt coatings as well as maintenance of aged, sheet metal parts, steel structures, concrete, glass, wood, etc. It is applied by painting or spraying with consumption of 0.2 to 2 kg / m2.

Example Butadiene-Styrene Rubber Asphalt Mineral Oil characterized by a high viscosity-density constant of 0.95 aluminum dust toluene wt. %

It is a formulation of a recipe suitable for the production of paints for interior finishes with low resistance to atmospheric aging.

Example mass % butyl rubber asphalt mineral oil characterized by viscosity-density constant 0,8 aluminum dust xylene

It is a formulation of a recipe suitable for the production of paints with high resistance to atmospheric aging.

Example mass % butadiene-styrene rubber asphalt mineral oil characterized by viscosity and density constants of 0.85 aluminum dust lead ortho-sulphate toluene

It is a formulation of a recipe suitable for the production of anticorrosive materials with the addition of an inorganic pigment.

Example mass % butadiene-styrene rubber asphalt mineral oil characterized by viscosity-density constant 0,9 aluminum dust

1,1'-beta-aminoethyl-2-alkenyl-imidazoline toluene

It is a formulation of a recipe suitable for the production of anticorrosive paints by the addition of an organic additive.

Claims (1)

SUBJECT OF THE INVENTION Reflective waterproofing elastic material based on rubber, asphalt and aluminum powder and optionally an anticorrosive additive, characterized in that it consists of 3 to 15% by weight of butadiene-styrene rubber or butyl rubber, 30 to 50% by weight. 2.0 to 20 wt. mineral oil characterized by a viscosity-density constant of 0.75 to 1.0, 30 to 60 wt. % organic solvent, 3-10 wt. % of aluminum powder and optionally 0.5 to 5.0 wt. lead orthooleate or imidazoline derivative.