SU859863A1 - Method of producing specimens for determination of polymer adhesion to fibres - Google Patents

Description

(54) METHOD FOR OBTAINING SAMPLES FOR DETERMINING POLYMER ADHESION TO FIBERS

The invention relates to the study of the adhesion of polymers to fibrous materials. A known method for producing a sample for determining the adhesion of polymers to fibers, including the deposition of fiber adhesion and its subsequent polymerization ClJ. The disadvantage of this method is that the measured area does not always coincide with the true one due to incomplete wetting of the true area and the formation of sandwiches on the fiber surface as a result of surface tension, which reduces the accuracy of the test results of the obtained samples. The disadvantages of the method also include the large labor intensity in the manufacture of samples. invention - improving the accuracy of the test results of the sample and reducing the complexity of their manufacture. This goal is achieved by the fact that in the method of obtaining samples for determining the adhesion of polymers to waves, including the application of adhesive on the fibers and its polymerization, before applying the adhesive, the fibers are placed in a melt of low melting and anti-adhesive with respect to them and the adhesive material, mainly paraffin, then the melt is cooled to hardening, the fibers are cut flush with it, and the adhesive is applied to the end surfaces of the fibers, after the polymerization of the adhesive, the melt is melted and the resulting samples are removed from it . FIG. 1 shows a device for carrying out the method before applying the adhesive, general view; on fng. 2 is the same after applying the adhesive. The method of sample preparation is carried out as follows. The fibers 1 are installed in a vessel 3 filled with melted low-melting anti-adhesive material 4, for example paraffin, wax, etc., using a cover 2 with fixing holes. After the material has cooled down to hardening and removing the locking curvature, the fibers are cut flush with the surface of the adhesive material, and then drops of adhesive are applied to the resulting fiber end surface with a capillary. At this temperature, the samples are held at room temperature until the adhesive hardens. After the formation of both of the two paraffins, the paraffin is melted and the samples in the form of fungi are removed from the vessel to determine the adhesion strength by the method of normal detachment using the Schopper dynamometer or goy fixture.

Due to the use of a low-melting anti-adhesive material, the adhesive is contacted with the fiber material only over the area of the fiber butt, i.e. There is a point contact of an adhesive with a fiber.

Example. Samples are made and tested for adhesive strength. ED-14 epoxy resin (GOST 10587-72) with a hardener hexamethylene diamine (paraffin as a low-melting anti-adhesive material. 30 micron glass fibers with 40 microns in length and 40-50 mm in length is used as an adhesive. lids with fixing holes in the vessel filled with paraffin melt.

For 2 hours, the paraffin is kept at room temperature until solidified. After removing the fixing cap and trimming the fibers with a glass capillary, an adhesive drop is applied to the end face of the fibers.

The samples prepared in this way are kept at room temperature for 24 hours. After paraffin is melted in hot water, the samples are removed from the vessel and kept for 1 hour. After waxing three times washing in perchlorethylene, the samples are subjected to heat treatment at 1 ° C for 15 minutes.

To determine the adhesive strength of the gluing, a Shopper dynamometer, Takai force, at which the specimens are destroyed is used, is small due to the point contact area.

Studies show that the use of samples made by the proposed method, i

allows you to quickly and accurately determine the amount of adhesion of the polymer to fibrous materials. The use of the proposed method of manufacturing the samples eliminates the unevenness of stresses when testing the samples, which is achieved by obtaining a point contact of the adhesive to the fiber) to avoid the formation of adhesive streaks of the adhesive on the fibers, which invariably lead to distortion of the results or a very large percentage of defects in the manufacture of samples. ; provides a cut of fibers produced directly during the manufacture of the fibers, as well as the purity of the fiber section (end) that comes into contact with the polymer.

In addition, the method is very simple and allows you to manufacture

0 in exactly the same conditions the required number of samples.

Claims (1)

1. Andreevska GD High strength oriented fiberglass. M., Science, 1966, p. 181. . 5 .S