RU2773027C1 - Polyurethane composition for coatings - Google Patents

Abstract

FIELD: coatings.

SUBSTANCE: invention can be used to produce a protective coating for wood, concrete, glass, or metal. Polyurethane composition for protective coatings contains polyoxypropylene glycol with a molecular weight of 1,000, polyisocyanate based on 4,4'-diphenylmethane diisocyanate, triethanolamine, orthophosphoric acid, a mixture of solvents, and copper (II) chloride.

EFFECT: reduced hardening time of the coating and improved adhesion and strength thereof.

1 cl, 2 tbl, 10 ex

Description

The invention relates to compositions of film-forming polyurethane compositions and can be used to obtain a protective coating for wood, concrete, glass, metal.

Known polyurethane composition for protective coatings, including a polyol, a polyisocyanate based on 4,4'-diphenylmethane diisocyanate, an amine and a solvent, as a polyol it contains polyoxypropylenetriol with a molecular weight of 3000-5000, as an amine - tributylamine, as a solvent - ethyl acetate and butyl acetate , additionally contains tin octoate and/or tin dibutyl dilaurate, in the following ratio, wt. hours:

polyoxypropylenetriol with a molecular weight of 3000-5000 100 polyisocyanate based on 4,4'-diphenylmethane diisocyanate 100-200 tributylamine 0.1-0.3 ethyl acetate 30-70 butyl acetate 30-70 tin octoate and/or 0.2-0.6 tin dibutyl dilaurate 0.2-0.4,

see RU Patent 2162478, IPC C09D 175/08 (2006.01), 2001.

The disadvantage of this composition is the long curing time of the coating, the low tensile strength of the film material, the presence of expensive tin dibutyl dilaurate in the composition.

Known polyurethane composition for coatings, including polyoxypropylenetriol with a molecular weight of 3000-5000, polyisocyanate based on 4,4'-diphenylmethane diisocyanate, ethyl acetate, butyl acetate, toluene, concentrated hydrochloric acid and additionally contains ethylene glycol in the following ratio, wt. hours:

polyoxypropylenetriol with a molecular weight of 3000-5000 80-95 polyisocyanate based on 4,4'-diphenylmethane diisocyanate 100-200 ethyl acetate 35-40 butyl acetate 30-40 toluene 20-35 concentrated hydrochloric acid 0.05-0.1 ethylene glycol 5-20,

see RU Patent 2304158, C09D 175/08 (2006.01), C08G 18/65 (2006.01), C08L 75/08 (2006.01), 2007.

The disadvantage of this composition is the long curing time of the coating.

Known polyurethane composition for coatings, including a polyol, a polyisocyanate based on 4,4'-diphenylmethane diisocyanate, a solvent, as a polyol it contains polyoxypropylenetriol with a molecular weight of 3000-5000, as a solvent - acetone, additionally contains tin dibutyl dilaurate and diphenylol propane, in the following ratio components wt. hours:

polyoxypropylenetriol with a molecular weight of 3000-5000 30-70 polyisocyanate based on 4,4'-diphenylmethane diisocyanate 65-70 tin dibutyl dilaurate 0.1-0.2 diphenylolpropane 70-30 acetone 125,

see RU Patent 2393189, C09D 175/08 (2006.01), C08G 18/65 (2006.01), C08G 18/32 (2006.01), C08G 18/24 (2006.01), 2010.

The disadvantage of this composition is the low hardness of the coating, low tensile strength, the presence of expensive tin dibutyl dilaurate in the composition.

Known polyurethane composition for coatings containing polyoxypropylene glycol with a molecular weight of 1000, a polyisocyanate based on 4,4'-diphenylmethane diisocyanate, triethanolamine, ortho-phosphoric acid, a solvent mixture of toluene with acetone and ethyl acetate, the composition additionally contains phthalic anhydride or pyromellitic dianhydride, with the following ratio of components, wt. hours:

polyoxypropylene glycol with a molecular weight of 1000 100 polyisocyanate based on 4,4'-diphenylmethane diisocyanate 90-140 triethanolamine 1.2-5 orthophosphoric acid 5-15 toluene 79-123 acetone 33-52 ethyl acetate 15-24 phthalic anhydride 2.5-15 or pyromellitic dianhydride 3.6-11,

see RU Patent No. 2737743, C08G 18/48 (2006.01), C08G 18/18 (2006.01), C08G 18/28 (2006.01), C08G 18/76 (2006.01), C08L 75/04 (2006.01), C08L 75/ 08 (2006.01), C09D 175/04 (2006.01), C09D 175/08 (2006.01), 2020.

The disadvantage of this composition is the long curing time of the coating and the low tensile strength of the film material.

A known polyurethane coating composition containing a polyol, a polyisocyanate based on 4,4'-diphenylmethane diisocyanate, as a polyol component, the composition contains a block copolymer of ethylene oxide and propylene oxide with a molecular weight of 2000-6000, 1-10% of the hydroxyl groups of which are replaced by potassium -alcoholic, contains ethyl acetate as a solvent, the composition additionally contains γ-aminopropyltriethoxysilane, divalent metal chloride CuCl ₂ , CoCl ₂ , MgCl ₂ , NiCl ₂ , CaCl ₂ , contains toluene and acetone as additional solvents, in the following ratio, wt. hours:

said block copolymer of ethylene oxide and propylene oxide with molecular weight 2500-6000 100 polyisocyanate based on 4,4'-diphenylmethane diisocyanate 115-125 γ-aminopropyltriethoxysilane one ethyl acetate 95 toluene 200 acetone thirty divalent metal chloride 0.1

see RU Patent 2626358, IPC C09D 175/08 (2006.01), 2017.

The disadvantages of this composition are the long curing time of the coating, low hardness of the coating, the presence of an increased amount of solvent in the composition, which leads to environmental degradation.

The closest in technical essence is a polyurethane composition for protective coatings containing a polyol, a polyisocyanate based on 4,4'-diphenylmethane diisocyanate, an amine and an organic solvent, as a polyol it contains polyoxypropylene glycol with a molecular weight of 1000, as an amine it contains triethanolamine, additionally contains ortho -phosphoric acid, and as a solvent contains a mixture of toluene, acetone and ethyl acetate, in the following ratio, wt. hours:

polyoxypropylene glycol with a molecular weight of 1000 100 polyisocyanate based on 4,4'-diphenylmethane diisocyanate 105-130 triethanolamine 2.25 orthophosphoric acid 3-6 toluene 66-172 acetone 28-72 ethyl acetate 13-35,

see RU Patent No. 2690116, C09D 175/08 (2006.01), C08L 75/08 (2006.01), C08K 3/32 (2006.01), 2019.

The disadvantages of the polyurethane composition are the long curing time of the protective coating based on it, low tensile strength and peel adhesion of the coating.

The technical problem is the long curing time of the protective coating based on the polyurethane composition, as well as insufficient tensile strength and peel adhesion of the coating.

The technical problem of reducing the curing time of a protective coating based on a polyurethane composition, increasing the tensile strength and peel adhesion of the coating is solved by the fact that a polyurethane coating composition containing polyoxypropylene glycol with a molecular weight of 1000, a polyisocyanate based on 4,4'-diphenylmethane diisocyanate, triethanolamine, ortho-phosphoric acid, the solvent is a mixture of toluene, acetone and ethyl acetate, according to the invention the composition additionally contains copper chloride (II), in the following ratio, wt. hours:

polyoxypropylene glycol with a molecular weight of 1000 100 polyisocyanate based on 4,4'-diphenylmethane diisocyanate 105-145 triethanolamine 1.2-5 orthophosphoric acid 5-10 toluene 90-125 acetone 35-50 ethyl acetate 15-25 copper(II) chloride 0.05-0.25.

The solution of the technical problem allows to reduce the curing time of the protective coating based on the inventive polyurethane composition to 1 hour, to increase the tensile strength by 40% and the peel adhesion of the coating by 28%.

Characteristics of the substances used in the composition:

- polyoxypropylene glycol with a molecular weight of 1000 manufactured by OAO Nizhnekamskneftekhim, Russia;

- polyisocyanate based on 4,4'-diphenylmethane diisocyanate brand Wannate PM-200, manufactured by Wanhua-Borsodchem, China;

- ortho-phosphoric acid according to GOST 6552-80;

- triethanolamine, production of Kazanorgsintez PJSC, Russia;

- toluene according to GOST 5789-78;

- acetone according to GOST 2603-79;

- ethyl acetate according to GOST 8981-78;

- copper chloride (II) - CuCl ₂ ⋅2H ₂ O, GOST 4167-74;

The invention is illustrated by the following specific examples:

Example 1 according to the prototype.

Obtaining a polyurethane composition for protective coatings.

At the first stage, a polyol component containing an amine is prepared by mixing these initial components at a temperature of 85°C for 120 minutes, wt. hours:

polyoxypropylene glycol with a molecular weight of 1000 100 triethanolamine 2.25 orthophosphoric acid 6.

Then a mixture of solvents is added to the polyol component - toluene, acetone and ethyl acetate, wt. hours:

ethyl acetate thirty toluene 158 acetone 66

mix thoroughly until a homogeneous mass is formed.

Before applying to the surface, a polyisocyanate based on 4,4'-diphenylmethane diisocyanate is added to the polyol component in wt. hours:

polyisocyanate based on 4,4'-diphenylmethane diisocyanate 108.

Stir until a homogeneous mass is formed and applied to the work surface.

Example 2 for the claimed object.

Obtaining a polyurethane composition for protective coatings.

At the first stage, the polyol component is prepared by mixing the indicated initial components at a temperature of 90°C for 180 minutes, in wt. hours:

polyoxypropylene glycol with a molecular weight of 1000 100 triethanolamine 2.5 orthophosphoric acid ten copper(II) chloride 0.05.

Then a mixture of solvents is added to the polyol component - toluene, acetone and ethyl acetate, in wt. hours:

toluene 95 acetone 35 ethyl acetate fifteen.

Mix thoroughly until a homogeneous mass is formed.

Before applying to the surface, a polyisocyanate based on 4,4'-diphenylmethane diisocyanate, wt. hours:

polyisocyanate based on 4,4'-diphenylmethane diisocyanate 105.

The components of the polyurethane composition are mixed until a homogeneous mass is formed and applied to the work surface.

Examples 3-10 are similar to example 2.

Based on the claimed polyurethane composition for protective coatings, a film is obtained by pouring a solution of the polyurethane composition into a Petri dish, after the solvent has evaporated and cured, the film material is separated from the glass surface and tested.

The composition of the claimed polyurethane composition and according to the prototype and the properties of the protective coating according to examples 1-9 are shown in table 1 and in table 2.

The physical and mechanical properties of the protective coating: the tensile strength of the film and the modulus of elasticity are determined in accordance with GOST 11262-80 on samples of type 1 on an Inspekt mini tensile machine, at a test temperature of 20±2°C.

The peel-off adhesion value is measured using the PSO-10MG4S device, designed to control the adhesion strength of ceramic tiles, textured coatings, plaster, protective and paint coatings with the base, using the normal tear-off method of steel disks (plates) according to GOST 28089, 28574, 31356.

The adhesion of the protective coating obtained on the basis of the polyurethane composition is determined by the method of lattice cuts in accordance with GOST 15140-78.

The drying time of the composition is determined by the absence of adhesion of a sheet of paper to the film formed after applying the composition to a steel plate, GOST 19003-73.

The impact strength of the protective coating is determined on a steel plate on the device U-1A according to GOST 4763-73.

The strength of the protective coating in bending is determined by bending a sheet of tin coated with a coating around a cylindrical rod of a certain diameter, according to GOST 52740-2007.

The relative hardness of the coating (in specific units) is determined by pendulum instrument brand ME-3 according to GOST 5233-89.

The equilibrium degree of swelling of the film is determined by the mass of liquid (water, gasoline, oil or transformer oil) absorbed by the film, according to GOST 7516.

As can be seen from the examples of a specific implementation, the protective coating based on the inventive polyurethane composition has a curing time of the coating up to 1 hour versus 9 hours according to the prototype, the tensile strength of the film material is 72-77 MPa versus 55 MPa according to the prototype, the peel adhesion of the coating is 5.8 -6.3 MPa versus 4.8 according to the prototype, while the strength of the coating in bending and impact, the modulus of elasticity of the film, and the equilibrium degree of swelling in various media have indicators at the level of the prototype.

Thus, the claimed polyurethane composition makes it possible to increase the tensile strength of the film by up to 40%, to increase the peel adhesion of the coating to 28% and to reduce the curing time of the coating to 1 hour.

Claims (2)

Polyurethane composition for protective coatings containing polyoxypropylene glycol with a molecular weight of 1000, a polyisocyanate based on 4,4'-diphenylmethane diisocyanate, triethanolamine, orthophosphoric acid, a solvent - a mixture of toluene, acetone and ethyl acetate, characterized in that the composition additionally contains copper (II) chloride at the following ratio of components, wt.h.: polyoxypropylene glycol with a molecular weight of 1000 100 polyisocyanate based on 4,4'-diphenylmethane diisocyanate 131-145 triethanolamine 2.5-5 orthophosphoric acid 6.5-10 toluene 90-115 acetone 35-50 ethyl acetate 15-25 copper(II) chloride 0.12-0.25