DE2845540C2 - Non-flammable coating agent and its use - Google Patents

Description

The invention relates to a non-flammable coating agent according to the preamble of claim 1 and its use.

Such a coating agent is known from DE-OS 2141 169. It contains monomethyl or Monoethyl, monopropyl or monophenylpolysiloxanes or their copolymers. The ones described there Polysiloxanes are polymers with oxygen bridges between the Si atoms that act as a lacquer-like binder Form coatings.

Coatings made from silane-silica solutions and inorganic Fillers are characterized by excellent solvent resistance and non-flammability the end; however, they are hard and brittle and show that the electrical resistances are blocked by the different Thermal expansion, severe cracking.

From DE-AS 22 20831 a coating agent is known which consists of a colloidal, inorganic The material and an adhesion promoter consist of organic silanes with amino or epoxy groups Organic silanes have to hydrolyze in colloidal solution in this known coating agent, is his Elaborate production. In addition, its wetting and drying properties are not very good, as Solvent water is used.

The invention is based on the object of providing a non-flammable, largely inorganically constructed To provide coating media, in particular for electrical resistors, that is a good one Resistance to organic solvents and good long-term temperature resistance up to 300 ° C, and which also provides good protection against moisture.

According to the invention, this object is achieved by the characterizing features of claim 1.

The advantages achieved with the invention are in particular the simple production and the unlimited shelf life due to the use of an organic solvent system. In addition, the drying of the coating is faster, and relatively thicker coating layers are also possible. Further advantages lie in better wetting ability and in the substantially reduced cracking upon storage of the electric components at an elevated temperature (300 ⁰ C) or thermal cycling and in the good moisture safety and insulation strength by the combination of silane silica solutions with heat-resistant flexible or thermoplastic Plastics, the advantageous properties of the two system components can be combined. Another advantage is that the coating mass is relatively

s can be applied in thicker layers than the well-known silicone polyester lacquers. The ratio of the layer thicknesses per application process is about 300 μm to 20 μm.

The invention is compared to the coating agent known from DE-AS 22 20 831 and in

ίο Comparison to that known from DE-OS 21 41 169

Coating agent explained in more detail using an example: In contrast to the DE-AS 22 20 831

known coating agent in which a colloidal

Silicic acid combined with organofunctional

If silanes is used as a binding agent, according to the invention it is a flexible encapsulation compound which is distinguished by the addition of highly heat-resistant resins to the known silane-silica solutions Consideration. By combining the synthetic resins with the silane-silica solutions, the advantages of both system components are combined. Silanes have excellent solvent resistance and non-flammability; above 200 ⁰ C, however, crack formation can not be avoided. The coating with high temperature resistant plastics, e.g. B. silicone polyester, is flexible, so that there are no cracks; however, it is not resistant to organic solvents. In addition, only thin layers (10 to 20 μm) are possible with a single application.

In one embodiment,

15 - 40 percent by weight of a silane-silica sol solution

sung,

3 - 8 percent by weight of a silicone-modified polyester resin,

0.5-5 percent by weight of a solvent and leveling agent

with

40 - 70 percent by weight porcelain flour,
2 - 7 percent by weight asbestine,
1 - 5 percent by weight rutile and
0.5-2.5 percent by weight manganese oxide

so mixed with the silane-Siiicasol solution from
30 weight percent silane of the formula

CH ₂

20 weight percent silica sol and
. 50 percent by weight dilution.

This coating composition was applied and at 20 kOhm Metal Oxide of type 0617 cured at temperatures between 200 ° C and 300 ⁰ C for periods between 5 and 20 minutes
The temperature change test between -65 ° C and + 175 ° C results in changes in resistance averaging +0.16 percent. After 1000 hours of storage at 200 ^° C., there was an average change in resistance

tion of -0.9 percent In the 56-day humidity test (95% relative humidity, 40 ⁰ C, 20V-) the change in resistance remains below 1%.

In the table below, the changes in resistance of metal film resistors of the type 0411, 32 kOhm, which have been ^{cured at 250 °} C. for 15 minutes, are compared with the same resistances which have been coated with a coating according to Example V of DE-OS 21 41 169. Metal film resistors were chosen because they are much more sensitive to moisture than metal oxide film resistors. The comparison measurements were carried out at 95% relative humidity and 40 ° C.

- [%]
Ro ^{l J}

Load duration Resistors with

according to the invention

Wrapping

Resistances with covering accordingly
DE-OS 21 41 169

7 days 0.02 until 0.1 1.2 until 3.1 21 days 0.03 until 0.12 7th until 23 56 days 0.04 until 0.24 25th until 40

From this table it can be seen that the coating composition according to the invention increases by a factor of 100 results in better values than the coating agent according to DE-OS 21 41 169.

Claims (2)

Patent claims: 1. Silicate fillers, resin, a low molecular weight silane compound, silica sol or mica sol and Non-flammable coating agent optionally containing pigments, characterized in that that the resin is silicone polyester, polyphenylene sulfide, polyimide and / or a co-condensate made of silicone resin and epoxy resin and the low molecular weight silane compound is an epoxy, Contains glycidoxy, isopropenyl or a vinyl group. 2. Use of a non-flammable coating agent according to claim 1 for electrical Resistances.