RU2786075C1 - Bitumen paste - Google Patents

Abstract

FIELD: hydraulic insulation.

SUBSTANCE: invention can be used in hydraulic insulation of a roof and road surfaces. Bitumen paste contains bitumen, water, and an inorganic emulsifier. Zeolite or zeolite-containing rock is used as the inorganic emulsifier.

EFFECT: increase in homogeneity of a bitumen emulsion and increase in its adhesion to building materials.

1 cl, 1 tbl, 6 ex

Description

The invention relates to bituminous emulsion pastes, which are used in road and roof construction for waterproofing work.

Known bituminous paste Khamast IPTs-16, which includes bitumen 50%, slaked lime (Ca (OH) ₂ ) 12% and water 38% (Guide to the device of cold asphalt waterproofing. P 77-79, VNIIG, Leningrad, 1979, p.11).

However, this paste is not water resistant due to the solubility of lime (~1.65 g/l) and has poor adhesion to most building materials. In addition, slaked lime has a lower emulsifying ability than quicklime.

Also known bituminous emulsion paste for road works, including petroleum bitumen, solid emulsifier and water. As emulsifiers for pastes, lime (ground boiling water) containing at least 60% calcium and magnesium oxides is used (Bitumen road emulsions (to SNiP 3.06.03.-85). Manual for the preparation and use of bituminous road emulsions).

However, the resulting pastes are excessively viscous and the emulsification process during slaking is difficult to control and can result in a non-uniform product. In addition, high-calcium lime is a rather scarce product due to its wide use in other areas, for example, for the treatment of acid wastewater.

Closest to the proposed invention is a bituminous paste using such an inorganic emulsifier as plastic clay (Guide to the device of cold asphalt waterproofing. P 77-79, VNIIG, Leningrad, 1979, p. 8-12). The introduction of emulsifiers with an asymmetric particle shape is considered to be more effective and leads to the prevention of thinning of the liquid layer between the drops of the dispersed phase, forming a continuous shell.

However, such pastes are coarse due to the lamellar shape of the emulsifier particles, which entails a high consumption of bituminous binder.

The aim of the invention is to increase the uniformity, dispersion of bituminous pastes, their adhesion to building materials, as well as the expansion of the scope of large-tonnage reserves of zeolite-containing rocks (DSP).

This goal is achieved by the fact that the bitumen paste, including bitumen and water, contains zeolite or zeolite-containing rock as a mineral emulsifier, which, in addition to zeolite, can contain calcite, clay minerals, opal-cristobalite-tridymite (OCT) and quartz, in the following ratio of components, wt.h. bitumen 40-70; zeolite (CSP) 15-35; water 15-35.

The minimum concentration of bitumen is due to a decrease in the water resistance of the bitumen paste, and the maximum concentration is due to an excessive increase in the specific surface of the particles of the dispersed phase, which requires deactivation with an emulsifier.

The minimum concentration of zeolite (CSP) is due to a decrease in the stability of the bitumen paste as a result of the aggregation of particles of the dispersed phase (bitumen). The maximum concentration is due to a decrease in the water resistance of the bituminous paste.

The minimum concentration of water is due to the need to ensure the necessary technological mobility of the bituminous paste, the maximum - the decay of the paste, that is, the separation of excess water.

The main component of the emulsifier is zeolites with a frame-cavity microstructure, which ensures their high sorption on the surface of particles of the dispersed phase, a decrease in the surface tension of bitumen and, as a result, its effective dispersion when producing a paste.

The paste is prepared by dispersion in the finished suspension (zeolite (CSP) + water), heated to t=70-100 ^o C of viscous bitumen with t=110-190 ^o C.

The lowest temperature of the suspension is due to the deterioration of the bitumen dispersibility. The highest temperature is the boiling point of water.

The lowest bitumen temperature is due to an increase in its viscosity, and the highest temperature is due to the boiling off of the dispersion medium during the introduction of bitumen.

Examples of the proposed pastes and their properties are given in table.1.

composition number Composition, % ρ, g/cm ³ Uniformity, % Cone draft, cm Adhesion, MPa Analogue GP-50 1.5±5% <5 ≤12 - one B-50,
B-25,
C-25 1.51 1.8 fifteen 0.5 2 B-40,
B-30,
C-30 1.59 2.2 eighteen 0.4 3 B-30,
B-35,
Ts-35 1.64 2.0 23 0.35 4 B-60,
IN 20,
C-20 1.48 2.9 12 0.57 five B-70,
B-15,
C-15 1.31 3.5 nine 0.59 6 B-50,
B-30,
C-20 1.49 2.1 17 0.48

Thus, the use of zeolite (CSP) as a mineral emulsifier makes it possible to obtain highly dispersed bituminous pastes with increased adhesive properties and uniformity.

Claims (2)

Bituminous paste containing bitumen, water and an inorganic emulsifier, characterized in that it contains zeolite or zeolite-containing rock (CSP) as an inorganic emulsifier at the following concentrations of components, parts by weight: Bitumen 40-70 DSP 15-35 Water 15-35