UA68225A - A polyisocyanate composition for the concrete impregnation and a method for concrete impregnation - Google Patents

Abstract

A polyisocyanate composition for the concrete impregnation contains solvable salt of alkaline-earth metal. A method for the concrete impregnation involves applying polyisocyanate composition on the concrete surface.

Description

Description of the invention

The invention relates to compositions, the main component of which is polyisocyanate, and can find application 2 in the impregnation of the surfaces of concrete structures and buildings for the purpose of their anti-corrosion protection.

Technical level

Compositions containing polyisocyanate are widely used for concrete impregnation.

The composition according to the author's certificate of the USSR 1348323 (С04В 41/63, publ. 30.10.87) contains polyisocyanate, butyl ether of acetic acid, an aqueous solution of sodium silicate and an aqueous solution of Petrov's kerosene contact. 70 The composition according to the author's certificate of the USSR 1560530 (С0О4В 41/63, publ. 30, 04.90) contains polyisocyanate and an ether of orthosilicic acid with a content of 2-3 silicon atoms.

The composition according to the author's certificate of the USSR 1574581 (С04В 41/63, publ. 30.06.90) contains methyl methacrylate, a polymerization initiator, polyisocyanate, calcium alkylbenzosulfonate and acetone.

The composition according to the author's certificate of the USSR 1715791 (С04В 41/63, publ. 29.02.92) contains polyisocyanate, 12-butyl acetic acid ether, liquid glass, oligoether acrylate and sodium alkylsiliconate.

The composition according to the author's certificate of the USSR 1825768 (С04В 41/63, publ. 07.07.93) contains epoxy dian resin, polyisocyanate, 2,4,6-tris-(dimethylaminomethyl)-phenol and phenylglycidyl ether.

The composition containing methyl methacrylate, dimethylaniline, polyisocyanate and benzoyl peroxide is described in the collection "Anti-corrosion works in construction" (Vol. 5, Moscow, Minmontazhspetsstroy USSR, 1988, pp. 12-16).

In the patent of the Russian Federation 2202582 (С090 133/10, СО90 175/04, СО8И 75/04 publ. 04.20.2003) the disadvantage of this composition is indicated - low penetrating ability. According to the invention, it is increased by adding to the composition a hydroxyl-containing compound selected from the group of lower alcohols and/or simple low molecular weight polyesters.

Low penetration is a disadvantage common to all polyisocyanate compositions. Since there is usually water on the surface of the pores of the percolating concrete, isocyanate groups easily react with it. At the same time, the viscosity of the composition increases sharply and the seepage process stops. Yes, if the impregnation composition consists of a polyisocyanate, as described in example 23 of the Russian patent

Federation 2128674 (СО8О 18/02, СО8И 79/00, publ. 10.04.99), after applying the composition to the concrete surface by any of the known methods, the process of concrete seepage can stop after three to four hours. In 30 minutes, polyisocyanate penetrates the concrete by fractions of a millimeter. with

To reduce the probability of interaction of isocyanate groups with water, one should either reduce the probability of interaction of isocyanate groups with water, or reduce the rate of such interaction. The first can be achieved, for example, by thorough drying of concrete, which is practically difficult to implement. The second is achieved by introducing a hydrophobic solvent or plasticizer into the composition, which slightly increases the penetrating ability of the composition and, therefore, the depth of infiltration. at

Impregnation can also be carried out by the injection method, in which the composition is injected into the concrete for a short period of time under excessive pressure. However, this method has limited application and is not the subject of the review. "

The basis of the invention is the task of developing a polyisocyanate composition that has a high C 40 penetrating ability. Another object of the invention is to develop a method that provides a greater depth of concrete infiltration.

From" According to the invention, the first problem is solved by the fact that the polyisocyanate composition for impregnation of concrete at 1O0Omas.h. polyisocyanate contains 0.1-5 wt. part of a soluble salt of an alkaline earth metal. With an alkaline earth metal salt content of less than 0.1 wt.h. the penetrating power of the composition almost does not increase. 45 Adding an alkaline earth metal salt to the composition in an amount greater than Bbms.part increases the viscosity of the composition, i.e. reduces its penetrating ability.

Ge | It is better that the composition contains a fatty acid salt as an alkaline earth metal salt.

Especially good results are achieved when alkaline earth metal salts are used in combination with hydrophobic solvents and/or plasticizers. ka 20 The second problem of the invention is solved by the fact that in the method of impregnating concrete, which includes applying a polyisocyanate composition to the concrete surface, the composition described above is used as a polyisocyanate composition.

Alkaline earth metal salts contained in the applied composition block the interaction of isocyanate groups with water in concrete, the time it takes for the composition to reach critical viscosity increases and it manages to penetrate deeper into the surface layer of concrete. This is especially evident when using a composition containing in qualities of alkaline earth metal salts, fatty acid salts. It can be assumed that such salts are surface-active substances and are sorbed on the surface of the pores of concrete that is being impregnated, and create a structural barrier, which is an obstacle to the contact of isocyanate groups with the water present in the concrete.

Examples of polyisocyanates suitable for the implementation of the invention are: crude diphenylmethane diisocyanate, 60 cubic meters of toluene diisocyanate production residues, the product of the interaction of 1M polypropylene glycol with MM-1000 and 2M toluene diisocyanate,

Examples of alkaline earth metal salts suitable for use in the composition are: calcium chloride, magnesium chloride, barium chloride, calcium acetate, calcium oleate, magnesium oleate or barium oleate.

Examples of hydrophobic solvents suitable for use in the composition are: toluene, xylene. for Examples of hydrophobic plasticizers suitable for use in the composition are: dibutyl phthalate,

dioctyl phthalate, tricresyl phosphate.

Other substances belonging to the specified groups of substances known to experts in this field can be used.

The table shows examples of compositions that were tested for concrete seepage.

The composition was prepared immediately before the test. Fatty acid salts were dissolved directly in the composition. Salts of other acids were previously dissolved in a small amount of solvent - acetone, alcohol or toluene, and then added to the composition. Since acetone and alcohol were used in small amounts and their presence did not affect the properties of the composition, they are not indicated in the examples. 70 The depth of seepage was investigated. For this, concrete columns with a diameter of 1 cm with a porosity of 495 and a moisture content of 595 were used. A rubber tube was put on the test column and it was placed vertically.

The prepared composition was poured into the section of the tube protruding above the surface of the column in a layer of 1 cm, and the tube was covered with a metal disc from above. The experiments were carried out at a temperature of 20"C. After three days, the rest of the composition that did not seep was drained from the tube and the depth of seepage was determined. The results of the measurements are shown in the fourth column of the table. with

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Altium chloride 111 75) dvtthaltium 00 cm m.c

Kheryad nu 01100000 so z5 Kheryadvavyu 0111110 F

Unrefined diphenylmethanesulfonate 111111111111111111100000100025 vd nan 71111111 tshut 01 yu « 2 Kheryad menu 01100001 s Zhvill 16 su Dutytiai 00 tnnneniya - - "t | 6 LO Lo

F Flatmanyu 005 so C crude derynemethandiucyanth 010000001000035

Fleatmanyu 00000000 t Unrefined diphenimethane dicyanite 010000000000035 yuyu Fleatmanyu 00000002 unrefined diphenipmethanediyu cyanite 00010003 sl Fleatmanyu 00000003

Flatmanyu 5 buckets of unrefined diphenylmethane dyes 1111111111111111111100000100055 » Flatmanyu 1

Duthietate 01 t (Crude diphenylmethane diisocyanate 0 010000100100076 zo Flatman 1 in 0100015 zo

Fleatmanyu 00000000 v v vv Interrogation 0000005 21|Cubic residues of toluene diisocyanate production 100 0)

with tyu 0061 with

Zhevid menu 000001 tuju 06 z

Flevtaltsi 111111 here 06 o'clock at 26 Produyetzuymodi M molpropylentolyuzMMyuyu bMtopulendiyutsannu 00000000 ot The product of vyaemod IM polyrotientkol with MLM toplendiyutsyanau 011111 and Fleatbyu 0000000

Lelya 11111116 11111611

In the table, examples 1-5, 21, 22, 25, 26 are given for comparison. From examples 1, 21 and 25, it can be seen that in the case of using only polyisocyanates, the depth of infiltration is insignificant. The addition of an alkali metal salt (example 5) does not affect the depth of seepage. As can be seen from examples 2, 3, 4, 22, 26, the introduction of a hydrophobic solvent or plasticizer into the composition slightly increases the penetrating ability of the composition and, therefore, the depth of infiltration.

From examples 6-9, it can be seen that when chlorides and acetates of alkaline earth metals are introduced into the composition, a penetration depth comparable to that achieved when hydrophobic solvents or plasticizers are introduced is achieved.

A greater depth of infiltration is achieved with the introduction of a fatty acid salt (examples 13-17). "

The depth of infiltration increases if hydrophobic solvents and plasticizers are used together with chlorides and acetates of alkaline earth metals (examples 10, 11, 23).

The best results are achieved when the composition contains fatty acid salts and hydrophobic solvents and plasticizers (examples 18, 19, 20, 27).

The composition for industrial use is sold ready-made. In the case of industrial use, the prepared composition was applied to the surface of concrete structures and buildings by spraying, brushing or using a roller.

The composition can be used both for applying to the walls of new and for the repair of old constructions and constructions: tanks for storing liquids, concrete and reinforced concrete structures, various hydrotechnical Ge) structures, rooms that are under the influence of moisture, for example, basements, etc. .d. The great depth of penetration of the composition, including when applied to wet surfaces, ensures obtaining a large thickness of the reinforced layer and, therefore, increasing the corrosion resistance of structures and buildings, as well as improving their protection against moisture penetration.

It should be noted that the use of the composition is not limited to impregnation of concrete surfaces. For a specialist, it is clear that it can also be used for impregnation of similar surfaces, for example, brickwork, sand-cement coatings of floors and roofs, etc. and?

Claims (1)

The formula of the invention 1. Polyisocyanate composition for concrete impregnation, which differs in that 100 wt.h. It contains 0.1-5 parts by weight of polyisocyanate. soluble salts of alkaline earth metal. ko 2. Polyisocyanate composition according to claim 1, which differs in that it contains a fatty acid salt as an alkaline earth metal salt. o Z. The polyisocyanate composition according to claim 2, which differs in that as an alkaline earth metal salt it contains calcium chloride, magnesium chloride, barium chloride, calcium acetate, calcium oleate, magnesium oleate or barium oleate. 4. Polyisocyanate composition according to one of claims 1-3, which is characterized by the fact that it additionally contains a hydrophobic solvent. 5. Polyisocyanate composition according to one of claims 1-4, which is characterized by the fact that it additionally contains a hydrophobic plasticizer. P 6. A method of concrete impregnation, which includes applying a polyisocyanate composition to the concrete surface, which is characterized by the fact that the composition according to one of claims 1-5 is used as a polyisocyanate composition. in the Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2004, M 7, 15.07.2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. b5