RU2333925C1 - Polymer composition for coating - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to polymer compositions used as radio-transparent atmosphere-resistant coating of cold hardening on paint coating and polymer composition materials. The composition includes the following ratio of components, in mass fraction: 9.8-23.5 co-polymer trifluorochlorethylene with vinilidenfluoride, 1.0-2.58 epoxy-diane resin, 0.8-2.0 amino ethoxisilane, 0.6-10.0 of pigments, 40.0-45.0 butyl acetate, 12.0-13.5 ethyl acetate, 16.0-18.0 acetone, 12.0-13.5 toluol as organic solvents. Additionally, composition can containa filler i.e. milled talc in amount of 0.10-0.12 weight fraction.

EFFECT: increased adhesion to paint coating and polymer composition materials, coating water-resistance, ensuring required radio-transparency within wavelength range of 2-70 cm.

4 cl, 2 tbl, 5 ex

Description

The invention relates to polymer compositions used as radiolucent weather-resistant coatings for cold curing paint coatings (LCP), and polymer composite materials (PCM).

A known composition for corrosion-resistant coatings containing a copolymer of trifluorochlorethylene with vinylidene fluoride, aluminum powder, colored pigments and solvents (RF patent No. 2215763).

The disadvantages of the known composition is the need for hot drying and low levels of radio transparency of the coating.

Known composition for coatings containing fluorine rubber SKF-32, a copolymer of methyl methacrylate and methacrylic acid (Vitan-2M), γ-aminopropyltriethoxysilane and solvents (av. St. USSR No. 1502591).

A disadvantage of the known composition is that it is not recommended for application on paintwork and PCM, has insufficient weather resistance and is not intended for use as a radiolucent coating.

A known composition for anti-corrosion coating, comprising a soluble copolymer of trifluorochlorethylene with vinylidene fluoride F-32L mol.m. 5.10 ⁴ -1.6.10 ⁵ , fluororubber SKF-32 mol.m. (1.5-2.5) .10 ⁵ , aminoalkoxysilane, 2,2,4-trimethyl-6-ethoxy-1,2-dihydroquinoline, cyclohexanone and a mixture of acetone with butyl acetate in a ratio of 1: 1 (RF patent No. 2009153) .

A disadvantage of the known composition is that it is not recommended for use by PCM, and, in addition, the resulting lacquer solution has little viability due to the introduction of aminoalkoxysilane and said dihydroquinoline into it, which limits the period of its use.

The closest analogue adopted for the prototype is a composition for anti-corrosion coating of the following composition, parts by weight:

Film-forming - trifluorochlorethylene copolymer with vinylidene fluoride F-32L 8-15

Organic solvent:

acetone 10-20 butyl acetate 16-35 toluene 15-30 ethyl acetate 14-33

Pigments:

aluminum powder, or dioxide titanium and / or blue phthalocyanine pigment, and / or yellow iron oxide pigment, and / or pigment red iron oxide, and / or carbon technical 6-12

(RF patent No. 2215763).

The disadvantage of the composition of the prototype is the low adhesion to the paintwork and PCM, low water resistance, and the inability to provide the required radio transparency in a given wavelength range.

The technical task of the invention is the creation of a polymer composition of cold curing for coatings with high adhesion to paintwork and PCM, with increased water resistance, as well as providing the required radio transparency in the wavelength range of 2-70 cm

The solution of the technical problem is achieved by the fact that the proposed polymer composition for coatings, including a copolymer of trifluorochlorethylene with vinylidene fluoride, pigments and organic solvents - butyl acetate, ethyl acetate, acetone and toluene, which additionally contains epoxy diane resin and aminoethoxysilane in the following ratio, wt.h. :

trifluorochloroethylene copolymer with vinylidene fluoride 9.8-23.5 epoxy diane resin 1.0-2.58 aminoethoxysilane 0.8-2.0 pigments 0.6-10.0 butyl acetate 40.0-45.0 ethyl acetate 12.0-13.5 acetone 16.0-18.0 toluene 12.0-13.5

As an aminoethoxysilane, the composition comprises γ-aminopropyltriethoxysilane, or 1-aminohexamethylene-6-aminomethylenetriethoxyaminosilane or diethylaminomethylene triethoxysilane.

As pigments, the composition contains titanium dioxide, or blue phthalocyanine pigment, or red pigment 5C, or zinc oxide, or mixtures thereof or colored mixed synthetic inorganic pigments.

The composition may additionally contain a filler - ground talc in an amount of 0.10-0.12 wt.h.

The authors found that the additional introduction of epoxy Dianova resin and aminoethoxysilane allows you to create a cold curing polymer composition for coatings with high adhesion to paintwork and PCM, with high weather resistance and water resistance, as well as to provide the required radio transparency of coatings in the wavelength range of 2-70 cm.

As a copolymer of trifluorochlorethylene with vinylidene fluoride, the claimed composition may contain various copolymers, but the best technical result is achieved using a copolymer of F-32L grades B and H according to OST 6-05-432-78 with a relative viscosity of 1% solution in methyl ethyl ketone equal to 1 25-1.65.

As the epoxy Dianova resin can be used various Dianova resin with the content of epoxy groups of 10-23.5%, but the best technical result is achieved using resins of grades ED-16 and ED-20 (GOST 10587-84).

As an aminoethoxysilane, the composition may contain γ-aminopropyltriethoxysilane (TU 6-10-724-77), 1-aminohexamethylene-6-aminomethylenetriethoxyaminosilane (TU 6-02-586-86) and diethylaminomethylene triethoxysilane (TU 6-02-573-86).

Various pigments can be used as pigments in the claimed composition, such as titanium dioxide (GOST 9808-84), chromium oxide (GOST 2912-72), zinc oxide (GOST 202-84), blue phthalocyanine pigment (TU 6-14- 195-74), pigment red 5C (TU 6-14-3-74), lead orange crowns (GOST 748-82) and others or mixtures thereof, as well as colored mixed synthetic inorganic pigments according to TU 6-10-100-194 -84.

As the organic solvent, it is most preferable to use butyl acetate, ethyl acetate (both according to GOST 8981-78), acetone (GOST 2768-84) and toluene (GOST 14710-78).

As a filler, the composition may contain ground talc according to GOST 879-82.

Examples of implementation

Example 1

40.0 parts by weight were loaded into the disolver. butyl acetate, 12.0 parts by weight ethyl acetate, 16.0 parts by weight acetone and 12.0 parts by weight toluene and when the stirrer was loaded 20, 25 wt.h. copolymer F-32LN, then 2.25 parts by weight were added. epoxy dianovy resin ED-20. The mixture was stirred for 1 hour to obtain a varnish solution. After this was added 5 wt.h. mixed pigment gray-green. The resulting suspension was pumped through a dispenser to a continuous bead mill. Dispersion was continued to a milling degree of 30 μm (determination was made according to GOST 6589-74). The resulting semi-finished composition was filtered and poured into containers.

Before use for application to the surface of PCM or LKP to 100 wt.h. 1.6 weight parts were added to the semi-finished composition. γ-aminopropyltriethoxysilane.

The compositions of examples 2-5 are prepared analogously to example 1. In example 2, the composition further comprises a filler - ground talc.

The composition can be applied to the pre-fat-free surface of PCM (carbon-, fiberglass), on a primed surface or on a primed and enameled surface. The weather resistance of the coating was determined after exposure of the painted samples for 24 months in areas of a moderately warm and warm humid climate. Adhesion was determined by the method of trellised incisions in the initial state and after testing in distilled water for 1-10 days (GOST 15140-78). Radio transparency was evaluated by the transmittance of electromagnetic radiation of free films from the composition in the wavelength range of 2-70 cm (RTM 1.2.178-2004).

Table 1 shows the compositions of the claimed composition and prototype, in table 2 - properties.

From the data of table 2 it follows that coatings based on the claimed composition have an increase of 4-5 times compared with the prototype adhesion to PCM and paintwork, increased by about 10 times the radio transparency and increased moisture protection and weather resistance, which will allow at least 5 times increase the resource of work of structural elements from PCM. The use of coatings based on the claimed composition will provide the required radio technical characteristics of fiberglass fairings, and in the case of synthetic inorganic pigments, the required reflection characteristics of coatings in the UV, visible and infrared ranges.

Table 1 Name of components The composition according to examples, parts by weight Prototype one 2 3 four 5 trifluorochlorethylene copolymer with vinylidene fluoride: F-32LN with rel. viscous 1.25 - 23.5 - - - with rel. viscous 1.4 20.25 - - - - fifteen F-32LV with rel. viscous 1.48 - - 10.1 10.1 - with rel. viscous 1.65 - - - - 9.8 Epoxy Dianova Resin: ED-20 2.25 - 1,1 - 1,0 - ED-16 - 2,58 - 1.3 - Aminoethoxysilane: γ-aminopropyltriethoxysilane 1,6 - 0.9 - - - 1-aminohexamethylene-6- aminomethylenetriethoxyamino silane - 2.0 - - 0.8 diethylaminomethylenetriethoxy- silane - - - 0.9 - Pigments: mixed gray green 5,0 - - - - - mixed dark green - 5,6 - - - - titanium dioxide - - 2.1 - - - blue phthalocyanine - - - - 0.6 - red 5C - - - 2,3 - - zinc oxide - - 7.9 - - - aluminum powder - - - - - 12 Talc ground - 0.12 - - - - Butyl acetate 40,0 40,0 45.0 44.0 45.0 35 Ethyl acetate 12.0 12.0 13.5 12.5 13.5 33 Acetone 16,0 16,0 17.0 18.0 18.0 twenty Toluene 12.0 12.0 13.5 13.0 13.5 thirty

table 2 The properties Examples of the invention Prototype one 2 3 four 5 Adhesion score to fiberglass: in the initial state one one one one one 4-5 after 10 days in diets. water one one one one one 4-5 to epoxy enamel: in the initial state one one one one one 4-5 after 10 days in diets. water one one one one one 4-5 Weather resistance in conditions of moderate warm climate: adhesion score one one one one one 5 loss of gloss,% 2 2 2 2 2 2 in warm conditions humid climate: adhesion score one one one one one 5 loss of gloss,% 2 2 2 2 2 2 Transmittance electromagnetic radiation in the range ≥98 ≥98 ≥98 ≥98 ≥98 ≥10 wavelengths 2-70 cm,% Water absorption of fiberglass with Education based coating blistering the claimed composition with a thickness of 50 μm, and peeling g / m ² · month: coated 25 25 35 28 25 without cover 280 280 280 280 280

Claims (4)

1. The polymer coating composition, including a copolymer of trifluorochloroethylene with vinylidene fluoride, pigments and organic solvents - butyl acetate, ethyl acetate, acetone and toluene, characterized in that it additionally contains an epoxy diane resin and aminoethoxysilane in the following ratio, wt.h .: trifluorochloroethylene copolymer with vinylidene fluoride 9.8-23.5 epoxy diane resin 1.0-2.58 aminoethoxysilane 0.8-2.0 pigments 0.6-10.0 butyl acetate 40.0-45.0 ethyl acetate 12.0-13.5 acetone 16.0-18.0 toluene 12.0-13.5 2. The polymer coating composition according to claim 1, characterized in that as aminoethoxysilane it contains γ-aminopropyltriethoxysilane, or 1-aminohexamethylene-6-aminomethylenetriethoxyaminosilane, or diethylaminomethylene triethoxysilane. 3. The polymer coating composition according to claim 1, characterized in that it contains titanium dioxide, or blue phthalocyanine pigment, or 5C red pigment, or zinc oxide, or mixtures thereof, or colored mixed synthetic inorganic pigments as pigments. 4. The polymer composition for coatings according to claim 1, characterized in that it further comprises a filler - ground talc in an amount of 0.10-0.12 wt.h.