SU1607362A1 - Polymeric frictional molding cmposition - Google Patents

Description

Eooorgeiie refers to the industry of asbestos-free technical products, which are polymeric ionic friction materials for brake linings mainly disc brakes of leu

The purpose of the invention is to increase the strength properties of the material of the / lzny composition and reduce wear of the cast iron counterbody.

According to the invention, a SKN-ZONS butadiene acrylonitrile latex rubber with a content of bound acryloic nitrile 31-35 mas. ° nd (TU 38 10325-7, basalt fiber (PCT SSR SOB-Bl)

As fibers based on aromatic polyamides USE Terlon fibers (TU 6-0.6-55 - - 86), VNIILON-K (TU 6-06-31- 45 J- 4T) VNIIVLOCH - MN (TU 6-OB- 3 -4 30-85) m oxalone.

The composition is prepared by mixing the components in a four-in mixer.

pas in two stages. In the first stage, basal fiber and aromatic polyamide-based fiber, latex, shavings, and temperature of the volcanic group are mixed. Mixing is carried out in a cold mixer for 10-12 minutes. The prepared mixture is dried at - 80 + 10 ° C for 0-5C1 minutes. The mixture is ground in a disintegrator, the remaining components are added to it, and the second mixing stage is carried out in a mixer, of a closed type under pressure MPa, with water cooling turned on. From the resulting mixture is molded. Forming temperature. Molded products are subjected to additional heat treatment in tempering furnaces with a stepwise rise in temperature from 80 to 20 hours.

Examples of known, proposed (1-7) and control (B - 13) compositions are given in table. one.

the friction-wear properties of the proposed, known and control compositions are evaluated according to the results of laboratory tests on an I-47 friction machine at a temperature of 20-BOO C, specific pressure — 1.5 MPa, counter-body material, cast iron SCh 18. determined organoleptically after testing on an H-t machine.

The test results of the compositions are given in table. 2 ..

Claims (1)

Analysis of the results shows that the proposed composition in comparison with the known gives a 2.6-3.7 times less wear of the counterbody and higher physico-mechanical properties. Polymer press composition for friction purposes, including 8-12 nolformaldehyde novolac resin, butadiene-acrylonitrile rubber latex containing bound acrylic acid nitrile mas, sulfur, zinc oxide, graphite, barite concentrate, metal powder filler, copper-based metal filler in the form of shavings, anti-alumina, syrup, organic iron, green iron, green iron, green shavings, anti-alumina, red iron, green alumina, raw iron, copper chips, anti-alumina, red iron, green alumina, raw material, copper-based metal filler in the form of chips, anti-alumina, red iron, high alumina, high alumina, raw iodine the fact that, in order to increase the strength properties of the material of this composition and reduce the wear of the cast iron counterbody, the composition contains as a fibrous filler u basalt fiber and fiber on the basis of aromatic polyamide, in the following ratio of components, Phenol-formaldehyde nosolach resin. Latex butadiene acrylonitrile rubber with a content of bound acrylic acid nitrile 31–35 MayD (on a dry basis) Sulfur Zinc Oxide Gr Afit Barite concentrate Metal powder filling ™ tel Copper-based metal filler in the form of chips Q Antimony three-grained aluminum oxide basalt fiber Fiber based on aromatic poly-d5 amide five 3-5 0.7-0.8 0.5-0.7 b, 8-7.5 9-15 6-12 10-20 5-9 h-9 18-30 3-7