RU2286367C1 - Polymeric paint and varnish composition - Google Patents

Abstract

FIELD: polymers, paint and varnish materials.

SUBSTANCE: invention relates to polycarbonate-base compositions used for applying covers. Polymeric paint and varnish composition comprises the following components, mas. p. p.: polycarbonate based on bisphenol A with molecular mass 26000-36000 Da, 12.0-14.0; polymeric adhesive as a plasticizer, 1.5-4.2; copolymer acrylonitrile-butadiene-styrene, 0.12-1.4; mineral filling agent chosen from the group of mineral small-dispersed materials: aluminum powder, titanium dioxide, alkali-earth metal salts, talc, microwollastonite, 0.6-26.0; dye chosen from the order of phthalocyanine dyes or color mineral pigments, 0.1-1.4; polyoxyethylene sorbitan monooleate (Tween-80) as a surfactant, 0.001-0.01, and chlorinated aliphatic solvent, the balance. Invention provides the development of polymeric paint and varnish composition rapidly drying in natural conditions that allows preparing arbitrarily colored covers on different building materials being without deterioration of adhesion.

EFFECT: improved and valuable properties of composition.

3 cl, 1 tbl, 9 ex

Description

The invention relates to compositions for coating, in particular to polymeric paints and varnishes, specifically to compositions for coating based on polycarbonate.

These materials can most successfully be used to obtain weather-resistant protective and decorative coatings on the surfaces of wood, metal, concrete and other surfaces located both inside and outside the premises.

Polycarbonate-based coatings are characterized by increased light and moisture resistance and low hygroscopicity. They are distinguished by high mechanical properties, dielectric properties that persist over a wide temperature range from very low negative temperatures to 190-200 ° C, and are resistant to acids, oxidizing agents and detergents. Polycarbonate is considered a physiologically safe polymer due to the lack of biological activity of it and any components extracted from it (Smirnova OV, Erofeeva SB Polycarbonates, M .: Chemistry, 1975, 288 pp.).

The use of polycarbonates for producing films and coatings is known. However, the chemical structure of aromatic polycarbonates, and primarily based on bisphenol A, determines the high rigidity of the resulting films and their low adhesion to surfaces in the preparation of protective coatings under ordinary conditions. Therefore, in order to increase the adhesion of polycarbonate coatings to substrates, either surface chemical modification of films or a high-temperature method for creating polycarbonate coatings on metal surfaces is used, providing for mandatory heating of products to a temperature above the melting point of polycarbonate, i.e. 260-280 ° С (Schnell G. Chemistry and Physics of Polycarbonates, M .: Chemistry, 1967, 229 pp.).

A known composition used to obtain plasticized films based on polycarbonate, including aromatic polycarbonate, a plasticizer - polyethoxyamine (2-50% by weight of polycarbonate) and methylene chloride as a solvent [Pat. USA No. 3070563, US C1 524/244 (1962)].

The disadvantage of this composition is the need for preliminary synthesis of a plasticizer - polyethoxyamine from ethylene oxide and a quaternary alkyl amine, as well as a long time (24 hours) of plasticization of polycarbonate films. The possibility of using this composition to obtain protective coatings of various surfaces is not discussed.

Known highly filled thermoplastic composition containing aromatic polycarbonate, polyalkylene terephthalate resin as a plasticizer, as well as pigments and mineral additives in the form of salts and metal oxides, which is used to obtain products by thermoextrusion (Pat. USA No. 5510398 US C1 523/171 (1996), MKI6 C 09 D 5/29).

However, this composition, due to its consistency, is not intended to create decorative protective coatings on surfaces.

A known polymer composition for creating a protective coating on concrete and reinforced concrete structures based on furan-containing products - waste furfural production. As the polymer binder, an epoxy resin (30 parts by weight) with polyethylene polyamine (30 parts by weight) as a hardener, as well as flexible nitrile butadiene rubber as a plasticizer and an organic solvent (acetone) are used [Pat. RF No. 2045561, C1 6 C 09 D 171/14 (1991)].

The disadvantage of this composition is that at the specified ratio of resin and hardener, the composition becomes unstable during storage due to the curing process. Therefore, the hardener is introduced into the composition immediately before its use to create a coating. The possibility of using this composition to obtain protective coatings on various other surfaces is not discussed.

Closest to the essential features of the claimed composition is a composition containing 1 wt.h. polycarbonate, 9 parts by weight methylene chloride and 10 parts by weight diethyl phthalate as a plasticizer [Japanese Patent No. 211146, nat. class 24 H 21 (1965), LC. 16 C 779 P (1967)], selected as a prototype. It is a primer composition, because It is used only for preliminary, liquid primer of metal surfaces. A protective polycarbonate coating with high adhesion to the metal is created in the second stage by spraying powdered polycarbonate onto the primed surface and then baking it at 240-350 ° C.

The disadvantage of this composition is its limited use only for the purpose of priming the surface, because the coating formed from it does not adhere to any materials. Another disadvantage is the complexity of the curing technology of the polycarbonate coating at the second stage of its formation and the high energy intensity of the process. The composition cannot be used to obtain quick-drying coatings on other common, but less heat-resistant building materials in the usual way. Therefore, its application is limited to the creation of coatings only by the two-stage method of high-temperature powder technology, and if necessary to obtain painted surfaces, high-temperature-resistant dyes should be used, the set of which is small.

The objective of the present invention is to provide a quick-drying, naturally-occurring polymer coating composition based on aromatic polycarbonate, which allows one-step production of arbitrarily painted coatings on various building materials without deterioration of adhesion by applying the composition by conventional methods, followed by short-term drying in air. In addition, the resulting coatings have high weather resistance in combination with good decorative properties and high adhesion to wood, metal, concrete, slate and other building materials in a wide temperature range and, thus, the claimed composition can be successfully used to create indoor and outdoor protective -decorative coatings.

This object is achieved in that the polymer paint composition comprising aromatic polycarbonate, a plasticizer and a chlorinated aliphatic solvent, as an aromatic polycarbonate contains bisphenol A polycarbonate with a molecular weight of 26000-36000, as a plasticizer contains an acrylonitrile-butadiene-styrene copolymer, and also contains a polymer adhesive, a mineral filler selected from the group of mineral finely dispersed materials: aluminum powder, titanium dioxide Salts of alkaline earth metals, talc, microwollastonite; a dye selected from a number of phthalocyanine dyes or colored mineral pigments, and polyoxyethylene sorbitan monoleate (Tween 80) as a surfactant in the following ratio of components, parts by weight:

Bisphenol A Polycarbonate 12.0-14.0 Polymer adhesive 1,5-4,2 Acrylonitrile Butadiene Styrene Copolymer 0.12-1.4 Specified Mineral Filler 0.6-26.0 Specified Dye 0.1-1.4 Twin 80 0.001-0.01 Chlorinated Aliphatic Solvent rest

The composition uses aromatic polycarbonate based on bisphenol A with a molecular weight of 26000-36000, TU P-262-63.

As a polymer adhesive, the composition contains an ED-20 or ED-22 epoxy resin (GOST 10587 76) with hardener polyethylene polyamine (TU 6-02-594-80) in a mass ratio of 100: 7 (wt.h).

The composition as a polymer adhesive contains polyvinyl acetate (GOST 18992-80) or universal polymer adhesive based on polyvinyl acetate resin with the brand name "NACET-S" (Manufacturer - Poland) with a polymer binder content of 37 wt.%.

As a high molecular weight plasticizer, an acrylonitrile-butadiene-styrene copolymer (ABS polymer), TU 6-05-1587-84, is used.

As a finely divided mineral filler: titanium dioxide (GOST 19808-84), barium sulfate, calcium carbonate, talc with dispersed particle sizes of up to 30 nm, and (or) microwelastonite (MB-10-94, ZAO GEOKOM, RF) with the maximum particle size of 100 nm, and (or) aluminum powder (GOST 5494-95).

As dyes, phthalocyanine dyes (blue 1510 and green G-7, Jayscolor GFP, China) or colored mineral pigments: yellow lightfast (Jayscolor Y01, China), orange pigment (Jayscolor OR 05, China), iron oxide pigments (GOST 18172- 80 or TU 6-10-602-86).

Polyoxyethylene sorbitan monoleate (Tween-80 "FERAK" Germany) is used as a surfactant.

As a solvent, chloroform or a mixture thereof with methylene chloride in any proportions is used.

A significant difference between the claimed paint and varnish polymer composition from the prototype is that it contains a polymer adhesive, which gives it high adhesion to various building materials; as a plasticizer, it contains a copolymer of acrylonitrile-butadiene-styrene and additionally also a mineral filler, a dye and a surfactant, which meets the criterion of novelty.

The composition is prepared by sequentially mixing the constituent components, followed by applying it to the surface to be painted in any known manner: by pneumatic spraying, by watering, dipping, using a paint roller or brush. If viscosity reduction is necessary, the composition can be further diluted with a chlorinated aliphatic solvent. Before applying the compositions to the steel surface, the latter, after ordinary cleaning and degreasing, was treated with a phosphating rust cleaner “NEFFOS” (TU 21490072 - 00203938 - 2001), OJSC “APATIT”. The curing of the composition with the formation of a durable coating occurs when the applied layer is dried in air under natural conditions for 15-20 minutes.

The nominal viscosity of the proposed composition was determined on a B3-246 viscometer with a nozzle diameter of 4 mm at a temperature of 20 ± 0.5 ° C (GOST 8420-74).

Hiding power is expressed in the number of grams of material needed to cover an area of 1 m ² .

The adhesion of the coating was determined by the method of lattice cuts in points 24 hours after applying the composition to the test surface.

Specific compositions of the claimed compositions and the method of their preparation are given in the following examples and in the table.

Example 1. 77 g of chloroform are poured into the mixer and 13 g of aromatic polycarbonate are poured into the mixture with stirring; stirring is continued for several hours until the specified polycarbonate is completely dissolved at room temperature or for half an hour while heating the solution. Then, 2.60 g of epoxy resin and 0.182 g of polyethylene polyamine as a hardener (which corresponds to a mass ratio of 100: 7) are added to it with stirring. To the resulting solution, 0.005 g of Tween-80 and 0.65 g of a copolymer of acrylonitrile-butadiene-styrene in 6 g of chloroform are added with stirring. Phthalocyanine dye 0.65 g, titanium dioxide 1.3 g and barium sulfate 0.65 g are thoroughly triturated separately, the mixture is diluted with 3.5 g of solvent and introduced into the polymer composition with stirring for 5-10 minutes, after which the resulting product is poured in a tightly closed container. To obtain a coating, the composition is applied to the surface in any way. Curing of the coating occurs by natural drying in air for 15-20 minutes.

Example 2. According to the method described in example 1, a solution of 13 g of aromatic polycarbonate in a mixture of 30.0 g of chloroform and 30.0 g of methylene chloride is prepared. Separately, a solution of 3.9 g of polyvinyl acetate in 16.0 g of chloroform is prepared and introduced into a solution of aromatic polycarbonate. To the resulting solution, 0.005 g of Tween-80 and 0.39 g of a copolymer of acrylonitrile-butadiene-styrene in 3 g of chloroform are added with stirring. Then, according to the method described in Example 1, 1.0 g of TiO ₂ , 10.0 g of microwelastonite and 0.3 g of yellow light-resistant pigment in 3.0 g of chloroform are introduced and mixed for another 10 minutes.

Example 3. According to the method described in example 1, a solution of 12 g of aromatic polycarbonate in 70 g of chloroform is prepared. Separately, with stirring, 4.0 g of NACET-S glue containing 1.5 g of polyvinyl acetate was diluted with 8 g of chloroform and introduced into a solution of the specified polycarbonate. To the resulting solution, 0.001 g of Tween-80 and 0.12 g of an acrylonitrile-butadiene-styrene copolymer in 3.0 g of chloroform are added with stirring. With continued stirring, 0.6 g of aluminum powder and 0.1 g of blue phthalocyanine dye are added, mixed for 5 minutes.

In examples 7, 8, 9, a characteristic of compositions obtained outside the claimed composition is given, from which it can be seen that a change in the ratio of constituent components beyond these limits affects the technological properties of the composition due to a change in the optimal viscosity and reduces the quality of the applied coatings by reducing the amount of adhesion and deterioration hiding power.

In example 9, the amount of polyethylene polyamine increased with respect to the epoxy resin to 10: 100 (parts by weight). Such a composition is unstable during storage, because after 15-20 days, a gel forms as a result of intensive curing of the epoxy resin in the presence of an excessive amount of hardener. This gel floats to the surface of the composition, violates its technological properties and makes it unusable.

The inventive composition allows you to get quick-drying in natural conditions, white or painted in any color of the coating in just one step by applying conventional methods, followed by drying in air for 15-20 minutes Coatings have high adhesion to the surface of most building materials compared to the prototype. The use of the claimed composition can significantly simplify the technology for producing painted coatings, reduce energy consumption and increase the efficiency of production. The proposed composition is stable in hermetic storage conditions for at least one year without changing the technological properties.

Tests of coatings applied on steel, concrete, slate (composition 4) and on steel, concrete, slate, wooden surface (composition 5) were carried out after exposure of the samples in natural climatic conditions for 1.5 years, including two winters. The results showed that the coatings have long-term (more than 1.5 years) resistance to weathering and climatic changes in temperature, combined with good decorative properties. Therefore, the proposed polymer paint composition can be used to create internal and external protective and decorative coatings.

Thus, the claimed polymer paint composition surpasses the prototype in a wider range of its practical use and allows to obtain coatings on any building materials without restrictions on their heat resistance and more accessible and widely accepted application methods. The proposed composition is stable when stored in sealed conditions for at least one year without changing the technological properties.

The present invention is also directed to the disposal of products from polycarbonate and its waste generated during polymer processing, for example, in the form of a flake.

Claims (3)

1. A polymer paint composition comprising an aromatic polycarbonate, a plasticizer and a chlorinated aliphatic solvent, which contains bisphenol A polycarbonate with a molecular weight of 26000-36000 as an aromatic polycarbonate, and an acrylonitrile-butadiene-styrene copolymer a, as a plasticizer, also additionally contains a polymer adhesive, a mineral filler selected from the group of mineral finely dispersed materials: aluminum powder, titanium dioxide, alkali salts earth metals, talc, microwollastonite; a dye selected from a number of phthalocyanine dyes or colored mineral pigments, and polyoxyethylene sorbitan monoleate (Tween 80) as a surfactant in the following ratio of components, parts by weight: Bisphenol A Polycarbonate 12.0-14.0 Polymer adhesive 1,5-4,2 Acrylonitrile Butadiene Styrene Copolymer 0.12-1.4 Specified Mineral Filler 0.6-26.0 Specified Dye 0.1-1.4 Twin 80 0.001-0.01 Chlorinated Aliphatic Solvent Rest 2. The composition according to claim 1, characterized in that as the polymer adhesive using epoxy resin with hardener polyethylene polyamine in a mass ratio of 100: 7. 3. The composition according to claim 1, characterized in that the polymer adhesive uses polyvinyl acetate or a universal polymer adhesive based on polyvinyl acetate with the brand name "NACET-S".