RU2505572C2 - Lacquer composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: lacquer composition contains curing agent AF-2, fluoroplastic lacquer LFE-32 LNKH, carbon nanotubes and basalt flakes.

EFFECT: invention enables to absorb high-frequency energy with small thickness of the deposited layer.

2 tbl

Description

The invention relates to electronic equipment, in particular to the production of varnish compositions, and can be used in on-board microstrip microwave devices.

Known "Polymer composition for the absorption of high-frequency energy" [RU 2349615 C1, publ. 03/20/2009], containing polymer - synthetic rubber, low molecular weight dimethylsiloxane SKTN, the catalyst is a cold curing catalyst No. 68, as well as an absorbing filler. As an absorbing filler, the polymer composition for absorbing high-frequency energy contains radio carbon iron R-10 brand, with the following ratio of components, parts by weight: synthetic rubber, low molecular weight dimethylsiloxane SKTN 15-25, carbonyl iron R-10 78-83, cold curing catalyst No. 68 0.6-1.0

The closest in technical essence to the proposed lacquer composition is an epoxy moisture protective composition "KEV" (RD 107.9.4002-96) with the addition of hardener AF-2 for epoxy resins (TU 2494-052-00205423-2004) with the following ratio of components, in weight .h .:

Composition epoxy moisture protective "KEV" (TU 301-05-ОХЗ-07-93) one hundred Hardener AF-2 11-13

The composition is thoroughly mixed with hardener AF-2. The resulting composition after application is kept at a temperature of (25 ± 10) ° C for (10-20) minutes, then it is cured at a temperature of (65 ± 5) ° C.

The disadvantage of this composition is the inability of the varnish coating to absorb high-frequency energy.

The technical result of the invention is to obtain a varnish composition with high absorbing properties with a small amount of the applied absorbing layer.

The essence of the proposed varnish composition is that it contains a hardener AF-2 (TU 2494-052-00205423-2004),

New features that make it possible to achieve the claimed result is the content of LFE-32 LNH fluoroplastic varnish (TU 6-05-1884-80), which is a solution of fluoroplasts - 32 l, 42 l, 26 l and 23 l and epoxy resin brands and ED-8, carbon nanotubes (Taunit carbon nanotubes are long hollow fibers consisting of graphene layers of fullerene-like construction. The number of graphene layers is not more than 30, the diameter is from 10 to 60 nanometers. The amount of structured carbon is not less than 95% ) and basalt scaly o (TU 180-15-001-90), with the following ratio of components, g:

Varnish LFE-32 LNH 50-60 Carbon nanotubes "Taunit" 3.0-7.0 Scaly basalt 3.0-5.0 Hardener AF-2 0.6-08

Carbon nanotubes are added to the LFE-32LNX varnish in small portions with stirring using a mechanical stirrer and scaly basalt is added in portions with constant stirring. The composition is mixed until smooth for 25 minutes. Then, AF-2 hardener is introduced into the composition and mixed with a stirrer for (10-15) minutes. The composition is applied in two layers. The first layer is dried at a temperature of (25 ± 5) ° C for 1 h. The second layer is dried at a temperature of (25 ± 5) ° C for 1 h, then at a temperature of 70 ° C - 6 h.

Table 1 shows the compositions of the proposed varnish composition

Table 1 No. p.p Components, g Example 1 Example 2 Example 3 one Varnish LFE-32LNH (TU 6-05-1884-80) fifty 55 60 2 Carbon nanotubes "Taunit" (CNT) 3 5 7 3 Scaly basalt (TU 180-15-001-90) 3 four 5 four Hardener AF-2 0.6 0.7 0.8

The indicated range of components was chosen due to the fact that with a decrease in the number of CNTs and scaly basalt it is impossible to achieve the required absorption of spurious radiation in the closed volume of microwave devices, and with an increase in their number it is not possible to use the varnish composition due to an increase in its viscosity, inhomogeneity, and decrease in elasticity.

The amount of hardener AF-2 is calculated on the number of epoxy groups. With a decrease in the amount of hardener AF-2, the varnish composition does not completely cure; the adhesion of the varnish composition to the metal substrate decreases.

The table shows the results of comparative tests of the analogue and the claimed varnish composition for the absorption of high-frequency energy in a twenty-channel waveguide distributor.

table 2 No. p.p. Indicators Analogue Example 1 Example 2 Example 3 one The attenuation change in the frequency range f = (8.5-12) GHz, dB 0.25 ... 0.95 0.1 ... 0.89 0.23 ... 0.8 0.3 ... 0.82 2 SWR, dB 1.4 ... 2.1 1.3 ... 1.5 1,03 ... 1,3 1.1 ... 1.3 3 Thickness mm 2 0.8 0.8 0.8

As can be seen from table 2, the proposed lacquer composition for absorbing high-frequency energy has several advantages:

- absorption efficiency with a small thickness of the absorbing layer;

- use in on-board microstrip microwave devices.

Claims (1)

Varnish composition, including AF-2 hardener, characterized in that it additionally contains LFE-32 LNH fluoroplastic varnish, Taunit carbon nanotubes, scaly basalt, in the following ratio of components, g:
Ftoroplastovy varnish LFE-32 LNH 50-60 Carbon nanotubes "Taunit" 3.0-7.0 Scaly basalt 3.0-5.0 Hardener AF-2 0.6-0.8