RU2649645C2 - Composition for forming of the polyurethane coatings surface layer - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: present invention relates to a composition for forming a protective decorative layer on the surface of bases obtained from rubber chips and an urethane type binder, which can be used in construction during the formation of elastic sports grounds and roofing. Composition contains 100–240 parts by weight of ethyl acetate solvent, 4–16 parts by weight of Desmodur 44V20L polyisocyanate, 3–7 parts by weight of glycerol, 0.5 parts by weight of tin dibutyl dilaurate and 2 parts by weight of Irganox, and as a basis, the composition contains 100 parts by weight of SKU-8Tb and / or SKU-8A urethane rubber.

EFFECT: use of this composition makes it possible to improve the physical and mechanical properties of the surface layer material, its ozone resistance and its resistance to thermal and oxidative degradation.

1 cl, 2 tbl, 6 ex

Description

The invention relates to compositions used to form a protective and decorative layer on the surface of bases obtained from crumb rubber and a urethane type binder, which can be used in construction in the formation of elastic sports fields and roofing.

Polyurethane-forming compositions based on hydroxyl-containing polybutadiene rubber with a molecular weight of 2100-5300 and a hydroxyl content of 0.6-1.9 masses are known. % (patent RU No. 2285026, IPC C09D 175/14, C08L 15/00, 2006) and based on hydroxyl-containing low molecular weight rubber - a butadiene-isoprene copolymer with a monomer ratio of 80:20, with an average molecular weight of 3000-3500 and a hydroxyl content groups 0.7-1.1 mass. % (patent RU No. 2268279, IPC C09D 175/14, C08L 15/00, 2006). The compositions cure under the action of an isocyanate hardener - polyisocyanate, and contain a urethane formation catalyst, desiccant, filler, plasticizer, trifunctional low molecular weight alcohol, antioxidant, pigment and surfactant.

A common drawback of materials based on these compositions is insufficient strength and low resistance to thermo-oxidative, ozone and ultraviolet aging.

The closest is a urethane film-forming composition consisting of a mixture of isocyanate-polyol prepolymers (patent EP 0573206, IPC C08G 18/48, C08G 18/12, 1993) obtained by the interaction of polyether polyols with polyisocyanates. The composition may contain diols, triols, amines, amino alcohols, thiols and other functional components and mixtures thereof.

The reason that impedes the achievement of the required technical result when using the composition selected for the prototype is that the cured material has inherent low resistance to thermo-oxidative and ozone aging, insufficient physical and mechanical properties in general. Under the influence of atmospheric factors, irreversible changes occur, leading to a partial or complete loss of the basic properties and to a decrease in the life of the material.

The objective of the invention is to develop a film-forming urethane composition for forming a protective layer.

The technical result of the invention is to increase the physico-mechanical properties of the surface layer material, its ozone resistance and resistance to thermal oxidative degradation.

The technical result is achieved in a composition for forming a surface layer of polyurethane coatings, including an isocyanate-polyol urethane prepolymer, the composition additionally containing ethyl acetate, Desmodur 44V20L polyisocyanate, glycerin, tin dibutyl dilaurate and irganox, and the composition contains SKU-8 urethane rubber as a base / or SKU-8A, in the following ratio of components, mass. hours:

Urethane rubber one hundred Ethyl acetate 100-240 Polyisocyanate 4-16 Glycerol 3-7 Tin Dibutyl Dilaurate 0.5 Irganox 2

The composition for forming the surface layer of polyurethane coatings is characterized in that it additionally contains 3 mass. including pigment per 100 mass. including urethane rubber.

The essence of the invention lies in the use of a film-forming composition from which it is possible to form a surface layer of sports coatings by paint and varnish methods, and its composition provides the cured material with increased weather resistance and improved physical and mechanical characteristics in general. The achieved effect is due to the formed film-forming system - high molecular weight urethane rubbers, which complicate the oxidation processes in the polymer.

The composition used SKU-8Tb urethane rolled rubber (TU 38.103468-80), a molecular weight of 200,000, the polycondensation product of polyesters with diisocyanates. Or urethane rolled rubber SKU-8A (TU 38.103209-77), a molecular weight of 120,000, a polycondensation product of polyesters with diisocyanates, or mixtures thereof, which provide increased wear resistance, strength, high thermal oxidative stability and ozone resistance of the material.

As the solvent, polar ester type solvents can be used, for example ethyl acetate, butyl acetate, etc.

Desmodur 44V20L, a brown liquid product, which is a mixture of 4,4'-diphenylmethanediisocyanate with its isomers and higher functional homologs, was used as a polyisocyanate (PIC) in the composition. Manufacturer Covestro AG (Germany). Mass fraction of diphenylmethanediisocyanate 50%; mass fraction of isocyanate groups 31.5%. Viscosity at 25 ° С - 198 mPa⋅s

Tin dibutyl dilaurate (TU 6-02-818-73) was used as a catalyst for urethane formation. It is possible to use tin octolate and other organotin catalysts used in the chemistry of polyurethanes.

In the role of a low molecular weight tri-functional alcohol glycerin acts.

As an antioxidant, the composition includes irganox (Irganox 1010). Chemical name: pentaerythritol tetrakis (3- (3,5-di-tert-butyl-4-hydroxyphenyl) propionate (CASE number 6683-19-8).

The composition may contain pigments, which can serve as oxides of iron, chromium, zinc, titanium and other elements, organic azo and phthalocyanine pigments, for example, phthalocyanine green, phthalocyanine blue, iron oxide red, iron oxide yellow, yellow crock, lemon crock, light yellow, red 4C, red 5C. The presence of dye does not affect the properties of the material and determines only its color.

For the manufacture of compositions, mixing equipment is used, which provides a homogeneous solution of rubber, antioxidant and pigment in an environment of ester rubber. Due to the fact that SKU-8A rubber has a lower molecular weight than SKU-8TB, it seems possible to use SKU-8A solutions with a higher concentration.

The amount of solvent is optimal within the claimed limits to create optimal concentrations of solvent for each of the rubbers. An increase in the amount of solvent is impractical, and a decrease will not provide the required homogenization and density of the mixture.

The content of the urethane formation catalyst is determined by the necessary pot life of the composition.

PIC and glycerin are supplied complete with the composition and its calculated amount is added directly to the coating formation site.

Examples of compositions of the claimed compositions for forming the surface layer of polyurethane coatings are presented in table 1.

An example of the preparation of the composition

In the mixing equipment (for example, a mixer with an anchor mixer or a ball mill, a dissolver, etc.), the required amount of composition is made in accordance with each of the formulations shown in table 1. The composition of example 4 contains foreign ratios of the minimum threshold concentration of PIC and glycerin.

To prepare the composition, urethane rubber, antioxidant and ethyl acetate, taken in accordance with the recipe, are homogenized. In the process of implementing the formulation using pigment, it is also introduced into the mixing equipment. Upon reaching the required degree of homogenization, the composition is discharged from the mixer.

Immediately before coating formation, the amount of catalyst, PIC and glycerol corresponding to the formulation is added to the resulting composition. The mixture is stirred for 10 minutes and poured into molds for making samples. Maintain at a temperature not lower than 15 ° C for 3-5 days.

Tests of cured materials were carried out according to GOST 263-93 “Rubber. Method for determining shore hardness A ", GOST 270-75" Rubber. Method for determination of tensile strength properties ". The thermal oxidative stability of the coatings was studied using differential scanning calorimetry (DSC) in the OIT induction oxidation time recording mode (Netzsch DSC 204 F1 Phoenix calorimeter with Intracooler system). Samples weighed to the fourth digit were placed in open aluminum crucibles. Heating to the test temperature was carried out at a speed of 10 K / min under constant inert gas purging (argon). Upon reaching the test temperature, the inert gas supply was stopped and oxygen was supplied at a rate of 50 ml / min [ISO 11357-6]. All data was recorded and processed using specialized Netzsch Proteus 6 software in OIT registration mode.

The study of the resistance to ozone was carried out on an automated complex TOM-1000, according to the well-known method ("TOM-1000" - installation for determining the ozone resistance of industrial vulcanizates and rubber-cord composites / OO Tuzhikov, S.V. Mednikov, V.F. Zheltobryukhov, OV Olshansky, LI Inzhinova // Problems of tires and rubber-cord composites: collection of materials of the Seventeenth Symposium, October 16–20, 2006 / Scientific - Technological Center "NIISHP". - M., 2006. - T.2. - P. 200-202; Study of ozone resistance of vulcanizates in a plane stress state / O.O. Tuzhi kov, S.V. Mednikov, V.F. Zheltobryukhov, O.V. Olshansky // Innovative technologies in training and production: material V. All-Russian n.-pr. conf., Kamyshin, December 4-6, 2008 In 3 volumes T. 1 / KTI (branch) of Volgograd State Technical University [et al.]. - Kamyshin, 2008. - P. 120-123; Patent RU 2320972, IPC G01N 3/12, G01N 3/18, publ. 27.03 .2008).

The properties of the studied samples are presented in table 2. The composition of the prototype was prepared according to example C1 of patent EP 0573206.

Thus, the composition for forming the surface layer of polyurethane coatings based on urethane rubber SKU-8Tb and / or SKU-8A, including ethyl acetate, polyisocyanate, glycerin, tin dibutyl dilaurate and irganox, with the stated ratio of components provides increased physical and mechanical properties of the surface layer material, its ozone resistance and resistance to thermal oxidative degradation.

Claims (3)

1. A composition for forming the surface layer of polyurethane coatings, comprising an isocyanate-polyol urethane prepolymer, characterized in that the composition further comprises an ethyl acetate solvent, Desmodur 44V20L polyisocyanate, glycerin, tin dibutyl dilaurate and irganox, and the composition contains SKU-8 urethane rubber as a base / or SKU-8A, in the following ratio of components, parts by weight: Urethane rubber one hundred Ethyl acetate 100-240 Polyisocyanate 4-16 Glycerol 3-7 Tin Dibutyl Dilaurate 0.5 Irganox 2 2. The composition according to p. 1, characterized in that it further comprises 3 parts by weight pigment per 100 wt.h. urethane rubber.