SU562010A1 - A method of manufacturing an electrically insulating material - Google Patents

Description

. one

The invention relates to the field of electrical engineering, in particular, to methods for manufacturing electrically insulating materials.

Methods are known for the manufacture of electrically insulating materials based on the performance of two separate technological operations.

In the first stage, mica paper or mica paper is obtained, and in the second stage it is glued to a woven, film or fiber basis.

But since the advanced, mica mica is not sufficiently uniform in the size of the plates, the mica and mica paper obtained on their basis have heterogeneous characteristics but thickness and other parameters 1.

After gluing mica and mica paper with a fabric base, for example glass fiber, there is not enough uniform thickness on the tape with not enough high electrical characteristics, poor processability due to insufficient elasticity.

The known bonding compositions used for this purpose do not provide sufficient elasticity, mechanical strength, thermal, electrical and thermal resistance of the material, which limits the scope of their application.

2

Closest to the proposed method are the manufacture of electrically insulating materials, including the introduction of structured additives into synthetic rubber, the expansion of the composition obtained in an organic solvent, the application of the composition on a woven base and the heat treatment of composition 2. For example, heat-resistant glass fiber fabrics are made. These materials have sufficient manufacturability when used, however, they have lower short-term and long-term dielectric strength, than materials based on mica paper.

The aim of the invention is to provide a method for manufacturing an electrically insulating material, the material of which is obtained has a high technological performance and an increased stability of properties during exploitation effects.

This goal is achieved in the manufacture of an electrically insulating material using a pre-plasticized rubber into which a resin, such as enoxide, is introduced, and a mica material, such as mica, is split.

Another resin, for example, silica-organic, and other micaceous material, such as micaceous mass, may be pre-dehydrated, may be introduced into the rubber.

As synthetic rubber, for example, butadiene, butadiene styrene, butadiene methyl styrene, butadiene "itryl, carboxylate, vinyl pyridine, polysiloxane, fluoro rubber, fluorolones and others are used.

Cleavage of micaceous materials is carried out by processing on rollers in a mixer or other devices. Due to the adhesion forces arising from the transfer of synthetic rubber from the micaceous materials of the lamps, the splitting is carried out to a predetermined degree of homogeneity, for example, to a thickness of 0.1 micron mites with an area of 50-10 microns.

In the splitting of micaceous materials in synthetic rubbers, as already indicated, special additives are introduced, for example, epoxy resins, silicone silicas (MPHF) and other viscous compounds.

At the same time, other special additives are added to the composition to obtain a pulp composition that does not contain water. Pulp with targeted additives provides uniform roll mica.

Before applying to the base, the pulp is pre-dissolved in solvents, for example, methyl ethyl ketone, methyl methacrylate, cellosolve, carbon tetrachloride, acetone, butyl acetate, styrene, gasoline and others or in their mixtures, bringing to a predetermined viscosity from 2 to 15 minutes. -four.

The pulp is applied to the substrate by spraying, soaking, and dipping with further heat treatment at a temperature of 50-360 ° C.

The material is heated in special heat chambers, and a layer of pulp applied to the substrate is calibrated with an accuracy of ± a ± 0.01. M, m before entering, m into an existing chamber,

In order to increase the productivity of the method and the homogeneity of the material, the latter is preheated in the chambers to a temperature of 50-200 ° C, and then finally stabilized in a gas or liquid medium at a temperature of 100-360 ° C.

Thanks to a simple technological procedure, which is carried out continuously, the method is technological, has a fishing efficiency and ensures uniformity.

and the stability of the properties of the mica-containing electrically insulating materials obtained.

Claims (2)

1.Ponomarev L.T. “Escapopova Electrical Insulation, 1969, pp. 69-78. 2. “Handbook of Electrical Materials, Vol. I, Part I, 1958, pp. 211-216.