CS213271B1 - Method of decreasing the inflammability of reactoplasts - Google Patents

Description

The invention relates to a method for reducing the flammability of thermosetting plastics.

The importance of plastics and thermosetting plastics applications is well known and is constantly being increased by their increasing quality level, expanding range, production volume and application possibilities. Their major disadvantage for some applications, especially those in the electrical and construction industries, is their flammability. There are currently many ways to reduce flammability. The most efficient way is to incorporate the halogen element in the macromolecule through the component, or by using a suitable fuel, for example antimony trioxide, antimony trioxide trihydrate, talc, bauxite and the like. Another option to reduce flammability is the use of flame retardants, but none of the known and well-known methods is suitable for plastics used in the electrical industry for applications such as parts of electrical machines and high-voltage devices, since these substances together with reducing flammability deteriorate their dielectric properties. In addition, they also have a negative effect on processing technology.

The present invention eliminates these drawbacks in that, during the preparation or processing of the thermosetting plastics, a soluble substance containing bound sulfur is added to the base resin in an uncured state or to another component of the thermosetting plastics in such an amount that the sulfur content is 0.1 to 10% by weight, based on the base resin content. The added sulfur-containing substance is simultaneously chemically bound to the base thermoreactive resin. Peaktoplast contains some of the other ingredients like filler, softener,

213 271

213 271 dye, color pigment, thixotropic component.

The flammability reduction consists in the addition of a substance containing bound divalent or hexavalent sulfur. This addition substantially reduces the flammability of the thermosetting plastics while maintaining or even improving its electromechanical properties. In particular, the combustion rate (oxidation) is reduced and the exothermic heat produced by the additional polymerization induced by the increased combustion temperature is suppressed.

A condition for the suitability of the addition of the substance according to the invention is its solubility in the base resin of the thermosetting plastics or its component. Here, Sira acts as an inhibitor of destructive and oxidative reactions. The thermosetting curing system is a modification by the addition of a substance according to the invention. In some cases, the compounds of the invention may also be used to enhance some of the physical or physical-mechanical properties of thermosetting plastics. Advantageously, additives which simultaneously react with the monomeric or low molecular weight constituents of the base resin and incorporated into its macromolecule, such as 4,4'-diaminodiphenylsulfone in an epoxy resin cured with an anhydride hardener, can also be used. mechanical strength, hot shape stability, and hot dielectric properties of the resulting polymerization product.

Example

Casting compound for cast insulation of coils of electrical machines and devices. Epoxy resin containing epoxy. groups 0.3 eq / kg - 100 parts by weight ground fused silica filler - 220 parts by weight

4,4´-diaminodiphenylsulfone - 2 parts by weight hardener phthalic anhydride - 40 parts by weight

The mass was worked at 120 ° C and cured at 140 ° C for 12 hours.

The field of application of the invention is very broad, it is applied in electrotechnical products especially where for their application fire regulations prescribe reduced flammability. This is the case, for example, with the distribution transformers with cast insulation of HV coils from filled thermosetting plastics for residential and industrial construction.

If the addition of the present invention reduces the flammability of the cast insulation, these transformers can be placed on the ground floor or even on the upper floors of residential, commercial or industrial units. This will reduce the cost of distribution networks, electricity and increase the level of the environment, in which case there is no need for an investment-intensive transformer station for distribution transformers. Since at the same time the risk of explosion and fire of the transformer itself, including the complete equipment of the station, is suppressed, this application entails considerable economic savings.

Another example of the application of thermosetting ee with reduced flammability in electrical engineering is epoxy cast insulation of voltage and current transformers, buses, support and suspension insulators, and other high-voltage substation equipment, where reducing flammability increases reliability and reduces the risk of accidents. The power outage caused by the accident has considerable economic consequences, especially in industrial areas.

Flame retardant thermoplastics obtained by the inventive treatment process can be applied as casting materials, molding materials, powder coatings, thermoreactive coatings, foam and lightweight materials, adhesives, sealants and others.

Claims (1)

SUBJECT OF THE INVENTION A method for reducing the flammability of a thermosetting plastics process, characterized in that during the preparation or processing of the thermosetting plastics, a soluble substance containing bound sulfur is added to the base resin in an uncured state or to another component of the thermosetting plastics in such an amount that the sulfur content is 0.1 to 10 % by weight based on the base resin content, wherein the added sulfur-containing substance and at the same time chemically bound to the base thermoreactive resin and the thermosetting plastics material also contain some other components such as filler, softener, colorant, color pigment, thixotropic component.