SU1513004A1 - Composition for marking composition for marking and surface painting of articles of radio and electric engineering equipment from siloxane rubber - Google Patents

Abstract

The invention relates to compositions for marking and surface dyeing of products made of siloxane rubber and can be used in radio and electrical engineering. The invention allows to increase the specific surface resistance of products up to (1200-1350) ^. 10 ⁹ ohms ^. cm and increase the reliability of products up to 100% both in the initial state and after three times degassing, involving the sequential treatment of products, first in a solution of dichloramine in dichloroethane, and then in a solution of caustic soda with the addition of monoethanolamine. The composition includes, by weight : low molecular weight dimethylsiloxane rubber SKTN-1 (mol. wt. 25,000-65,000) 25.0, polymethyl ethoxy-siloxysilazane 0.4-4.0, mixture of zinc oxide with nickel oxide or cadmium (at a mass ratio of 1: 5) 24.0 -42.0 and toluene 50.0-70.0. 2 tab.

Description

The invention relates to compositions for marking and surface dyeing of products made of siloxane rubber and can be used in radio and electrical engineering.

The purpose of the invention is to increase the specific surface resistance and increase the reliability of products.

Example 1. By weighing and mixing, a composition is obtained, in terms of weight, including: low molecular weight dimethylsiloxane rubber SKTN-1 with a molecular weight of 25,000-65,000 (GOST 13835-73) 25.0; polymethyl ethoxy siloxysilazane (TU 6-02-1028-75) 0.4; zinc oxide (GOST 10262-73), 0; nickel oxide (GOST 4331-78) 20.0 and

toluene (GOST 5789-79) 50., O. The resulting composition is applied with a brush to the surface of the high-voltage power supply unit. ГШ5.108.34.1СВ as a marker coloring coating. At the same time, the composition was applied to the surface of flat samples of aluminum and hardened Vixint K-18 (based on dimethylsiloxane rubber with a molecular weight of B5 thousand). Then, according to GOST 15140-69, the adhesion of the marking composition to the surface of the organic rubber based on Viksint is determined, as well as the specific surface resistance according to GOST 6433-77 in the initial state and after triple degassing according to the method of PGV 605-73-77, providing

SP

OS

 1513004 sequential treatment first in a solution of dichloramine in dichloroethas by adding monoethanolamine. The high-voltage power supply units determine the reliability of operation by measuring their output parameters after triple degassing. Evaluation of the results produced by the formula H (); Pd, where n, is the total number of units tested, ny is the number of blocks, the output parameters of which do not meet the requirements of Ж1У0.108,341.У.

Examples 2-11 (examples 4-11 - control).

The compositions according to the examples receive and test as in example 1. The number of components, parts by weight, are given in table. 1, and the properties of products - in the table. 2

formula of invention

Composition for marking and surface painting of products of radio and electrical engineering from siloxane

o

four

five

0

five

rubber, including low molecular weight dimethylsiloxane rubber, silicon-organic additive, oxide filler and organic solvent, characterized in that, in order to increase the specific surface resistance and increase the reliability of products, it contains polymethylethoxysiloxysilazane as the silicone filler; zinc with nickel oxide or cadmium at a mass ratio of 1: 5 and as an organic solvent - toluene in the following ratio of components v, m.ch .: Low molecular weight dimethylsiloxane rubber 25

Polymethylethoxysiloxysilazane Q, li-k, 0 A mixture of zinc oxide with nickel oxide or cadmium at a mass ratio of 1:52 -k2 Toluene 50-75

Table 1

eleven

25.0

Oh, and

i, 0 20.0

5.0

50.0 65.0 75.0 50.0 50.0

AO, O

85.0

50.0

50.0 Mix 35 mac. toluene and 35 math. trifluoro-trichloro-ethylene 50 May, h. trifluoro trichloro ethylene

Claims (1)

Claim A composition for marking and surface coloring of radio electrical equipment made of siloxane rubber, including low molecular weight dimethylsiloxane rubber, an organosilicon additive, an oxide filler and an organic solvent, characterized in that, in order to increase the specific surface resistance and increase the reliability of the products, it contains polymethylethoxysiloxane as an organosilicon additive , as an oxide filler, a mixture of zinc oxide with nickel or cadmium oxide in a mass ratio 1: 5 and as an organic solvent, toluene in the following regarding components, may .h .: Low molecular weight dimethylsiloxane rubber 25 Polymethylethoxysil- xisilazane 0.4-4.0 A mixture of zinc oxide with nickel oxide or cadmium with mass ratio 1: 5 24-42 T oluol 50-75 Table 1 Example Rubber SKTN-1 Polymethylethoxysiloxysilazane Filler Toluene zinc oxide nickel oxide cadmium oxide 1 25.0 0.4 4.0 20,0 - 50,0 2 25.0 2,5 5,0 - 25.0 65.0 3 25.0 4.0 7.0 35.0 - 75.0 4 25.0 0.1 4.0 20,0 - 50,0 5 25.0 6.0 4.0 20,0 - 50,0 6 25.0 0.4 4.0 20,0 - 40,0 7 25.0 0.4 4.0 20,0 - 85.0 8 25.0 0.4 2.0 15.0 - 50,0 9 25.0 0.4 12.0 36.0 ·> - 50,0 10 25.0 0.4 4.0 20,0 Mixture 35 parts by weight toluene and 35 parts by weight trifluorotrichloroethylene eleven 25.0 0.4 4.0 20,0 50 parts by weight trifluoro- ethylene trichlor table 2 Example Adhesion to the surface, ball. Surface resistivity pj. * 10 *, Ohm "cm Reliability,% in the initial state after degassing in the initial state after degassing 1 1 1200 140 100 100 2 1 1300 150 100 100 3 1 1350 125 100 100 4 3 20 1,2 90 80 5 2 160 17 100 90 6 2 25 0.8 90 90 7 3 240 35 100 90 8 2 32 1, ⁶ 90 80 9 2 75 fifteen 90 80 10 2 340 21 100 90 eleven 3 45 4,5 90 70 Famous ny composition 1 4,5-10 ' 0.1 -10 ⁵ 60 thirty