CH637666A5 - Filler-containing reaction-curable resin compositions based on epoxy resins, and the use thereof for the preparation of moulded materials - Google Patents

Description

The invention relates to filler-containing reaction resin compositions based on epoxy resin for the production of components for SFo circuit breakers and high-voltage switchgear and the use of such reaction resin compositions for the production of molded epoxy resin materials.

It has been known that sulfur hexafluoride (SFe) has been used in circuit breakers and high-voltage switchgear for some time - as an extinguishing gas or for insulation. Since some of the sulfur hexafluoride is always decomposed by the arc during the switching processes, materials must be used in the circuit breakers and switchgear that are resistant to the S Fe fission products.

In electrical engineering, moldings made of epoxy-based reactive resins that contain fillers are generally used for insulating components such as bushings and supports; quartz or

Quartz flour. Molded materials containing quartz are now characterized by a high mechanical strength, but they are attacked by the SFö-fission products, such as HF (hydrogen fluoride), whereby conductive products are formed. The object of the invention is filler-containing reactive resin compositions based on epoxy resins to be specified, which enable the production of components for SFe circuit breakers and high-voltage switchgear, which both have sufficient mechanical strength and are also resistant to the SFó decomposition products. The reaction resin compositions and the molding materials produced therefrom should also be inexpensive.

This is achieved according to the invention by reaction resin compositions which have a content of

15

a) 50 to 70% by weight, based on the total weight, of dolomite as a filler with a grain size greater than or equal to the crystallite size and b) 0.1 to 3.0% by weight, based on the filler, of one 20 processing aids in the form of a primary aliphatic alcohol with a chain length of at least 6 carbon atoms, a dihydric aliphatic alcohol with a chain length of at least 5 carbon atoms, the hydroxyl groups being terminal, or a dihydric

25 alcohols based on O-alkylated bisphenol A are labeled.

Dolomite is understood to mean the naturally occurring mineral made of calcium and magnesium carbonate: the proportion of CaCCh and MgCOj, which is adequate in terms of quantity, is often subject to large fluctuations. In the reaction resin compositions according to the invention, preference is given to using natural occurrences which roughly contain the stoichiometric compound, i.e. the double carbonate 35 CaCOî • MgCÛ3.

The reaction resin compositions or the corresponding epoxy resin molding materials according to the invention, which are produced from the reaction resin compositions by reaction with a crosslinking component based on dicarboxylic acid anhydride, are of high quality both mechanically and electrically, and they are also resistant to SFs cleavage products. This result must be considered surprising. When using dolomite as a filler, an improvement in resistance to SFö fission products could be expected, but not sufficient mechanical stability. It is known that dolo-containing molding materials have a much lower mechanical strength than molding materials with quartz powder as filler, and the strength is about 30 to 50% lower.

The epoxy resin molding materials according to the invention, which are produced from reactive resin compositions which contain a specially selected dolomite and a certain processing aid, now show a strength increase in the range of between approximately 30 and 60% compared to 55 conventional dolomite-containing molding materials, i.e. they have a mechanical strength that is sufficient for the desired purpose - and in comparison with quartz-filled molding materials. In contrast to quartz-filled molding materials 60, the epoxy resin molding materials according to the invention are, as already mentioned, also resistant to SFs fission products. Compared to molding materials with aluminum oxide as a filler, the molding materials according to the invention have the significant advantage that they are considerably cheaper. In addition, aluminum-containing molding materials containing aluminum oxide have also proven to be not entirely satisfactory in electrical terms.

In the reaction resin compositions according to the invention is

637 666

the dolomite content is preferably between about 60 and 65% by weight, based on the total weight, i.e. essentially based on the weight of epoxy resin, filler and crosslinking component (hardener). The dolomite advantageously has a grain size <70 μm, the proportion with a grain size <2 μm being below 30% by weight and preferably being between about 10 and 20% by weight. It is also advantageous if the proportion of quartz in the dolomite is below 1% by weight and the soluble alkali and alkaline earth content is less than 0.1% by weight. Furthermore, the dolomite used in the reaction resin compositions according to the invention can advantageously be predried.

The content of processing aids in the reaction resin compositions according to the invention is preferably between about 1.0 and 1.5% by weight, based on the dolomite. Only organic compounds with one or two hydroxyl groups are used as processing aids in the reaction resin compositions according to the invention, i.e. monohydric or dihydric alcohols. The following processing aids are preferably used: stearyl alcohol (as monohydric aliphatic alcohol), 1,6-hexanediol (as io dihydric aliphatic alcohol) and - as dihydric alcohol based on bisphenol A - 2,2-bis (4-hydroxy-ethoxy-phenyl) propane , ie an alcohol with the following structure:

H0CH2-CH2-0- GiO -0-CH2-CH20H.

CH ^

For example, an O-alkyl derivative of bisphenol A can also be used, which - instead of ethanol - is derived from isopropanol, i.e. a connection with the grouping

-CH2-CH-CH3.

I.

OH

As already stated, the epoxy resin molding materials produced from the dolomite-containing reactive resin compositions according to the invention show good mechanical properties. This is due to the simultaneous use of a certain processing aid and a specially selected or prepared dolomite, i.e. a dolomite, whose grain size distribution is above the crystallite size. On the one hand, there are unharmed crystal lites, so that the crystallite strength of the filler in the molding material can be fully exploited. On the other hand, the use of a processing aid results in better adhesion between the dolomite and the epoxy resin used. It has been shown here that the improved adhesion can only be achieved with the special processing aids mentioned above. The use of known adhesion promoters, such as monomeric silanes and long-chain aliphatic carboxylic acids and polyglycols, does not lead to success. The special processing aids used in the reaction resin compositions according to the invention also have the advantage that they do not react with the epoxy resins. In this context, it should also be pointed out that all common and known epoxy resins can be used in the reaction resin compositions according to the invention.

The strength of the epoxy resin molding materials according to the invention can in particular be further improved by reducing the coarse material content of the dolomite and using a material with a grain size of <70 μm. In this case, mineral admixtures, such as mica, are also removed, which are generally poorly comminuted Advantageously, the dolomite also has a relatively small proportion of fines, ie a proportion with a grain size of <2 μm, because a high proportion of fines causes a high viscosity of the reaction resin compositions, which can lead to difficulties in terms of production technology.

The invention will be explained in more detail with reference to exemplary embodiments.

To produce the reaction resin compositions, 500 g of an epoxy resin are placed in a heatable vessel, and the mixture is then heated to approximately 140 ° C. When this temperature

20 rature is reached, 175 g of a crosslinking component based on dicarboxylic acid anhydride, i.e. a hardener. The resin / hardener mixture is then mixed with a certain amount of processing aid at 130 ° C. Finally 25 are added to the resulting matrix casting mass - with stirring at a temperature of 130 ° C - 1175 g of the filler dolomite heated to 150 ° C, which had previously been dried for 16 hours at approx. 150 ° C / 1 mbar, and thus Homogeneously stirred for 15 min at 130 ° C. The 30 homogeneous casting resin composition is then degassed for 5 minutes at approx. 130 ° C / 1 mbar and poured into standard molds preheated to a temperature of 160 ° C. The mixture is then crosslinked at a temperature of 160 ° C. for 16 hours.

After crosslinking, the epoxy resin molded 35 standard rods (120 mm x 15 mm x 10 mm) are cut and then - after storage for 24 hours at room temperature (approx. 20 ° C) - the bending strength (according to DIN 53 452) and the impact strength (according to DIN 53 453) is determined. The values determined are summarized in Table 2. 40 An oligomeric bisphenol A epoxy resin with an epoxy number of 0.22 was used as the epoxy resin, and a mixture of phthalic anhydride and tetrahydrophthalic anhydride in a ratio of 1: 2 was used as hardener. The following were used as processing aids: stearyl alcohol 45 (VM 1), 1,6-hexanediol (VM2) and 2,2-bis (4-hydroxyethoxyphenyl) propane (VM 3), each about 1% by weight on dolomite.

Of the filler dolomite, which was present in the casting resin in an amount of about 64% by weight, two different types were used (Do 1 and Do 2), the characteristic parameters of which are summarized in Table 1.

Table 1

55

Thu 1 Thu 2

Quartz content (in%)

0.29 0.53

Alkali and. Alkaline earth metal content (in%)

0.085 0.091

Grain size distribution:

Grain size (in | j.m)

Share in% by weight

so <150

100

<75

99

<63

96 100

<45

94 99

<30

75 95

65 <20

60 83

<10

40 53

<5

25 30

<2

12 13

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4th

Table 2 shows the mechanical strength values, i.e. for the flexural strength and the impact strength, summarized, which were obtained on standard bars from various epoxy resin molded materials. In addition to molding materials according to the invention, molding materials are also listed which only contain dolomite or - in the customary manner - quartz as a filler.

Table 2

Flexural strength (in N / mm2)

Impact strength (in N -mm / mm2)

Thu 1st

75

6.5

Thu 2

85

8.2

Do 2 / VM 1

95

10.2

Do 2 / VM 2

89

10.5

Do 2 / VM 3

88

9.2

quartz

125

12.3

The values in Table 2 show that the choice of dolomite and the use of a processing aid increase the bending strength by almost 30% and the impact strength by more than 60%. The values for the molding materials according to the invention also show that their mechanical strength level is above the limit that is usually required, which is 80 N / mm 2 for the bending strength and 8 N • mm / mm 2 for the impact strength. A comparison with the values for the quartz-containing molding material also shows that the molding materials according to the invention can achieve values of about 75% in bending strength and those of the known molding material in impact strength of about 85%.

B

Claims (10)

637 666 PATENT CLAIMS 1.Filler-containing reaction resin compounds based on epoxy resin for the production of components for SFs circuit breakers and high-voltage switchgear, characterized by a content of a) 50 to 70% by weight, based on the total weight, of dolomite as filler with a grain size greater than or equal to the crystallite size and b) 0.1 to 3.0% by weight, based on the filler, of a processing aid in the form of a primary aliphatic alcohol with a chain length of at least 6 carbon atoms, of a dihydric aliphatic alcohol with a chain length of at least 5 carbon atoms. Atoms where the hydroxyl groups are terminal, or a dihydric alcohol based on O-alkylated bisphenol A. 2. Reaction resin compositions according to claim 1, characterized in that the dolomite content is between 60 and 65% by weight, based on the total weight. 3. Reactive resin compositions according to claim 1 or 2, characterized in that the processing aid content is between 1.0 and 1.5% by weight, based on dolomite. 4. Reaction resin compositions according to one of claims 1 to 3, characterized in that the processing aid is stearyl alcohol. 5. Reaction resin compositions according to one of claims 1 to 3, characterized in that the processing aid is 1,6-hexanediol. 6, characterized in that the dolomite has a grain size <70 µm, the proportion with a grain size <2 µm being below 30% by weight. 6. Reactive resin compositions according to one of claims 1 to 3, characterized in that the processing aid is 2,2-bis (4-hydroxyethoxyphenyl) propane. 7, characterized in that the quartz content of the dolomite is below 1% by weight and the soluble alkali and alkaline earth content is below 0.1% by weight. 7. Reaction resin compositions according to one of claims 1 to 8, characterized in that the dolomite is pre-dried. 8. Reactive resin compositions according to one of claims 1 to 9. Reaction resin compositions according to one of claims 1 to 10. Use of the reaction resin compositions according to one of claims 1 to 9 for the production of epoxy resin molded materials by reaction with a crosslinking component based on dicarboxylic acid anhydride.