RU2159786C1 - Cold mastic for hydroinsulation and anticorrosion protection - Google Patents

Abstract

FIELD: chemical industry, more particularly preparation of polymer-containing primer compositions used as primer coatings applied onto reinforced concrete, concrete, cement-sand mortar, metal surfaces and onto plastered surfaces. SUBSTANCE: described are bitumen-containing mastics applied on substrates for further application of bitumen containing roll or sheet material. Mastic comprises, wt %: oxidized petroleum bitumen, 50-55; urotropin-containing complex of modifying agents, 3.5-7.5, and organic solvent, the balance up to 100. Urotropin-containing complex of modifying agents comprises urotropin, soluble elastomer, and oil-soluble organic acids. Soluble elastomer is latex or natural rubber, and polyolefin is atactic polypropylene, and oil-soluble organic acids are synthetic C₁₇-C₂₂ fatty acids or colophony, and solvent is toluene or solvent with addition of C₂-C₄ alcohol. EFFECT: increased adhesion properties provided that desired level of adhesion is attained at 5-25 C for 24 hours. 8 cl, 2 tbl

Description

 The invention relates to the production of polymer-containing primers - compositions used as primers applied to surfaces of reinforced concrete, concrete, cement-sand mortar, metal and plastered surfaces. In particular, the invention relates to bitumen-containing mastics applied to substrates for further application of bitumen-containing roll or sheet material.

A known composition for roofing and waterproofing mastics and sheet roll roofing and waterproofing materials (RF patent 2058348). The composition includes non-oxidized bitumen with a softening temperature of 30-65 ^o C - 45-13%, polyolefin (secondary polyethylene waste) - 5-12%, oil sludge from the regeneration of used oils - 30-50% and filler - 20-25%. The main disadvantage of the composition is the need for heating it when applied to the base (roof). This drawback is eliminated by cold mastics to protect building materials. However, they usually dry out for a long time, and when applied to protected surfaces, special operations are required.

Known bitumen-polymer composition (RF patent 2069652, MKI C 04 B 41/63, publ. 11/27/96), including bitumen obtained by oxidation to a softening temperature according to KSh 85-100 ^o C mixture of residues of atmospheric vacuum distillation and vacuum overhead, having a kinematic viscosity at 100 ^o C of at least 8 cSt, and an oil-polymer resin in an amount of 4-6 wt.% by weight of bitumen. The composition has a relatively low adhesion and when applied, it requires preliminary priming with a 6-8% solution of an oil-polymer resin in a kerosene-gas oil fraction boiling in the range of 180-360 ^o C.

Known mastic (patent application RF 94004095, MKI C 09 D 195/00, publ. 10.10.95) for thermal insulation and corrosion protection. Mastic contains, by weight. %: bitumen - 18.5-23.8, soluble elastomer (butyl rubber) - 1.3-4.5, filler (aluminum powder) - 1.3-4.5 and solvent - 72.5-73.5. Mastic is applied to the surface in a cold form, but the presence of butyl rubber in the composition requires drying for 8 hours at a temperature not exceeding 100 ^o C and subsequent heat treatment for 16 hours at a temperature not exceeding 170 ^o C.

As a prototype, a cold roofing-insulating slate-bituminous mastic SBN (TU 38.10989-89) was chosen, during the application of which no additional operations are performed. Mastic contains shale bitumen - 25-30%, functional additive - Kukersol varnish 60-65% and latex - 3%, and solvent as a solvent. Mastic prototype is applied to the protected surface in a cold form. It carries out waterproofing of the roof, and also provides corrosion protection. It is mainly used as a primer coating for subsequent application of sheet or roll roofing material to mastic. However, it was experimentally established that its adhesive properties and the rate of increase in adhesive properties are relatively low, and the adhesive strength reaches its maximum at a temperature of 15-20 ^o C in at least 24 hours, and at lower positive temperatures within 48 hours or more. Moreover, in the process of drying the primer layer between the base and the roofing material, bubble formation is possible, which reduces its operational properties. A consequence of the above drawback is the limitation of the slope of the base (roof) to 10%. It was experimentally established that when applying the prototype mastic to a slightly damp base, the adhesive strength sharply decreases, which leads to peeling of the coating. In addition, the presence of high-boiling components of the solvent makes it impossible to conduct the fusion operation with an open flame of roofing material due to fire hazard.

The basis of the invention is the complex task of creating a mastic for waterproofing and anticorrosive protection of surfaces with improved adhesion, provided that the specified adhesion level is reached at a temperature of 5-25 ^o C for 24 hours. Additional tasks are to increase adhesion when applying mastic to wet surfaces and reduce fire hazard in the process of deposition by an open flame.

The problem is solved in that cold mastic for waterproofing and corrosion protection, containing bitumen, a functional additive and an organic solvent, according to the invention contains petroleum oxidized bitumen as bitumen, and as a functional additive a urotropin-containing complex of modifying agents, in the following ratio of components, wt .%:
Petroleum Oxidized Bitumen - 50-55
Urotropin-containing complex of modifying agents - 3.5-7.5
Organic Solvent - Rest to 100
Moreover, the specified urotropin-containing complex contains, wt.%:
Urotropin - 20-29
Elastomer - 29-40
Polyolefin - 3.5-14
Oil Soluble Organic Acids - Else up to 100
The composition of the mastic uses an organic solvent. Obviously, the elastomer used in mastic should dissolve in this organic solvent. The solubility criterion is the absence of delamination in the resulting product, that is, its uniformity. Therefore, it is advisable to use latex or rubber as an elastomer.

As suitable elastomers for these purposes can be used:
latexes - styrene butadiene, nitrile butadiene and chloroprene;
rubbers - styrene-butadiene, isoprene, butadiene, butyl rubber, nitrile butadiene, chloroprene, styrene-butadiene thermoplastic elastomers.

Atactic polypropylene is used as a polyolefin, and C ₁₇ -C ₂₂ synthetic fatty acids or rosin as oil-soluble organic acids. It is also advisable to use toluene or solvent as an organic solvent. In this case, for applying a deposited roofing material, a solvent with a boiling point limit of 60-180 ^o C. should be used

In the case of applying mastic to wet surfaces, the best result is achieved when 1-20% alcohol C ₂ -C _{4 is} added to the specified solvent. Oil-oxidized bitumen is the main film-forming agent, and the limiting ratios of the components are due to the following: on the one hand, lowering the bitumen concentration below 50% reduces the viscosity and hiding power, which leads to a decrease in coating thickness to an unacceptable value, on the other hand, this leads to a relative increase in the content of the rest ingredients, which leads to excessive polymerization of bitumen, and consequently, to a decrease in the solubility of the ingredients, delamination and precipitation. Increasing the concentration of bitumen over 55% leads to a significant increase in the viscosity of the primer and the deterioration of the quality of the film. The urotropin-containing complex of modifying agents interacts with unsaturated and oxygen-containing bitumen compounds during the preparation of mastic. At the same time, the adhesive properties of bitumen increase and the structure of the film improves. Therefore, a lack of complex leads to a decrease in adhesion, and an excess leads to delamination and the formation of a precipitate of unreacted components.

 A decrease in the amount of solvent below the claimed limit leads to an unacceptable increase in viscosity, and an increase above the established limit leads to an unacceptable decrease in it. In both cases, the thickness of the primer film goes beyond the required values, which leads to a decrease in adhesion.

 It was experimentally established that not only the amount of the urotropin-containing complex affects the achievement of the claimed result, but also the components included in it and their ratio in the complex. Thus, as a result of interaction with oxygen-containing and unsaturated bitumen compounds and unsaturated elastomers (latex or rubber), urotropin forms methylene and methylol groups, resulting in a complex copolymer with high adhesive properties. In this case, the released ammonia interacts with oil-soluble organic acids with the formation of salts with high anticorrosive properties. A complex copolymer with the inert part of bitumen and ammonium salts of organic acids forms a film in the structural network of the polyolefin. The latter further increases the heat resistance and strength of the film. The atactic polypropylene used as a polyolefin in the indicated concentrations is best combined with bitumen and dissolved in an organic solvent, which also leads to an increase in the quality of the coating. In addition to atactic polypropylene, isotactic polypropylene or polyethylene with a molecular weight of 9000-12000 can be used. However, it was experimentally established that the best results were obtained with atactic polypropylene. Even at low temperatures, crystallization of atactic polypropylene from mastic does not occur for a long time.

Synthetic C ₁₇ -C ₂₂ fatty acids or rosin are ammonia acceptors, additionally increase the adhesion of bitumen to the base and are corrosion inhibitors.

The rate of increase in adhesion is significantly affected by the temperature limit of boiling off of the solvent used. It was experimentally established that the use of toluene or solvent with a boiling point of 60-180 ^o C in the composition of the mastic gives the best result. The inventive composition has a high adhesion to a dry base and a high rate of increase in adhesion. The introduction of alcohol C ₂ -C ₄ increases the water-displacing properties of the mastic and allows it to be used when applied to a wet surface of the base.

 The materiality of the features is confirmed by examples of specific implementations of the invention are given in table. 1.

The technology for making mastic is as follows. In the reactor with a reflux condenser, a jacket and a mixing device, the calculated amount of solvent was loaded according to composition numbers 1-14 of the table. 1, and then the ingredients of the urotropin-containing complex. The mixture was stirred for 3-5 hours until all components were completely dissolved, after which a calculated amount of bitumen was introduced into the resulting solution. The contents of the reactor were stirred for 2-3 hours at a temperature of 70-85 ^o C to obtain a homogeneous mass.

 When using mastic as a primer, it is diluted, for example, with gasoline at a ratio of 1: 1 or to a viscosity of 20-60 s according to VZ-246 with a nozzle diameter of 4 mm.

Field tests of mastic prepared according to the recipe 1-14 table. 1, showed the following results. The coating has high anticorrosive and adhesive properties. The adhesive strength is 3-4 kg / cm ² , which is 30-100% higher than that of the prototype.

 A mastic layer deposited on a concrete surface forms a coating in the form of a film without "sticking" for 1 hour. This allows the inventive mastic to be used as a primer for the subsequent deposition of rolled waterproofing materials after 4-5 hours with a guaranteed absence of organic solvent vapor, i.e. . with guaranteed fire safety. For comparison: the film coating of the SBN mastic (prototype) reaches a state without "sticking" after 8-10 hours, which corresponds to the possibility of fire-safe deposition - more than a day later. Mastic due to the high drying speed allows you to effectively fix defects (bumps, sinks, small cracks) on the surface of the base, which in turn guarantees the absence of bubbles under the rolled roofing material.

When installing the roof with roll waterproofing materials, the rate of increase in their adhesion to the base (due to the mastic layer) is such that at a temperature of 5-25 ^o C the maximum level of adhesion is achieved within 8-24 hours. The mastic layer holds the roll material at the joints of the roof surfaces, its curly and vertical sections, in particular at the junction of the roof with the wall panels protruding upward.

 All of the above properties are achieved both on dry surfaces and on wet ones. In the latter case, the addition of alcohol within the specified limits provides the necessary water displacement of moisture from the surface of the base. For a rigorous quantitative assessment of adhesion strength, comparative tests of the prototype and mastic samples according to formulation 1-14 of the table were carried out. 1. To eliminate the influence of fluctuations in the quality of rolled materials and surface roughness, tests were performed on samples of glassine-mastic-glassine with shear. At the same time, one of the two layers of glassine served as the "base". The test results are presented in table. 2. From the data table. 2 shows that the adhesive shear strength according to the claimed composition is 1.4-1.8 times higher than that of the prototype, with a dry "base" and 3.6-5.8 times with a wet "base".

Claims (5)

1. Cold mastic for waterproofing and corrosion protection, containing bitumen, a functional additive and an organic solvent, characterized in that it contains oil oxidized bitumen as a bitumen, and a complex of modifying agents from urotropin, elastomer, polyolefin and oil-soluble organic acids as functional additives the following ratio of components of the complex, wt.%:
Urotropin - 20 - 29
Elastomer - 29 - 40
Polyolefin - 3.5 - 14
Oil Soluble Organic Acids - Up to 100
in the following ratio of mastic components, wt.%:
Petroleum Oxidized Bitumen - 50 - 55
The above complex of modifying additives - 3.5 - 7.5
Organic Solvent - Rest to 100
2. Cold mastic according to claim 1, characterized in that latex or rubber is used as an elastomer.  3. Cold mastic according to claim 1, characterized in that atactic polypropylene is used as the polyolefin. 4. Cold mastic according to claim 1, characterized in that C ₁₇ -C ₂₂ synthetic fatty acids or rosin are used as oil-soluble organic acids.  5. Cold mastic according to claim 1, characterized in that toluene or solvent is used as an organic solvent. 6. Cold mastic according to claim 1, characterized in that toluene or a solvent with the addition of C ₂ -C ₄ alcohol is used as an organic solvent in the following ratio of components, wt.%:
Toluene or solvent - 80 - 99
Alcohol C ₂ -C ₄ - 1 - 20
7. Cold mastic according to claims 5 and 6, characterized in that the solvent is taken as a solvent with a boiling point limit of 60 - 180 ^o C.

Images