RU2001057C1 - Composite for friction material manufacturing - Google Patents

Abstract

Usage: manufacture of friction elements for clutch and brake dry friction of forging machines. SUMMARY OF THE INVENTION: A composition for manufacturing friction material contains (in h) butadiene rubber 100; sulfuric vulcanizing group 9.1 - 26.3; barite 113.6-221.1; alumina 13.6 - 52.6; graphite 13.6 - 42.1. and as a fibrous filler - mineral wool 682 - 105.3; carbon fiber 4.6 - 42.1 and polyamide fiber 22.7 - 63.2 The new friction material has high strength characteristics, good frictional and wear properties, which ensures forging up to 20 years the operation of forging machines with cyclic end loads on friction element. The new material made it possible to reduce the noise generated during shock engagement of the clutch and brake at frequencies above 500 Hz 3 tables.

Description

FIELD OF THE INVENTION This invention relates to friction products, in particular to materials of friction elements of clutches and dry friction brakes of forging machines.

An analogue of the present invention is a friction material containing a combined polymer matrix not based on elastomer and phenolic resin, and fillers: carbon black, clay, graphite, lead sulfate, wollastonite, copper oxide, and fibrous filler: polyamide fibers in the form of pulp or yarn and staple fiberglass.

The friction material, by analogy, has a high tensile and abrasion resistance, but at high end cyclic loads, the friction element quickly collapses.

Another analogue of the new material is a friction material containing a combined polymer matrix based on a thermoset elastomer and phenolic resin, and fillers: barite, carbon, clay, metal oxides, cashew nuts, rubber particles, fibrous filler: polyacrylonitrile fibers, aramid fibers, fiberglass and wire.

The friction material, by analogy, has good wear resistance, however, its strength characteristics are not high enough and at high end cyclic loads, the friction element breaks.

An analogue of the present invention is also a friction material comprising a phenolic resin polymer matrix and fillers: barite, calcium carbonate, rubber particles, cashew nut dust, graphite, molybdenum disulfide, fibrous filler: aramid fibers and / or aramid pulp, metallic powders made of steel, copper, brass and stainless steel.

The friction material, by analogy, has good friction-wear properties, but low physical and mechanical properties, which leads to the rapid destruction of the friction element under end cyclic loads.

A prototype of the present invention is a friction material comprising a rubber-based polymer matrix and fillers: alumina, barite, graphite, and asbestos as a filler.

The material according to the prototype does not have good friction-wear properties, has a low shear strength and the friction element breaks at high end loads when the brake is applied repeatedly.

The goal is to create a material for the friction elements of couplings and brakes of forging machines, ensuring continuous operation of the machines with significant cyclic end-face loads on the friction element (up to 50 starts in 1 min). For this, the friction material must have high strength characteristics (specific impact work, shear and compressive strength), high and stable friction coefficient, and low wear. In addition, friction elements must not emit noise (squeak) when the clutch and brake are applied.

To achieve the technical result, the composition for the production of friction material contains 0 butadiene rubber, sulfuric vulcanizing group, barium, graphite, alumina, and mineral fiber, carbon fiber and polyamide fiber as the filler, in the following 5 component ratio, May , h .: Butadiene rubber 100 Chamois vulcanizing group 9.1-26.3 Barite 113.6-221.1 0 Alumina 13.6-52.6 Graphite 13.6-42.1 Mineral wool 68.2-105.3 Carbon fiber 4.6- 42.1 5 Polyamide fiber 22.7-63.2. New material is prepared in a closed-type rubber mixer in one step. Rubber, vulcanizing group and fillers and are loaded into the rubber mixer. mix for 20-25 minutes with cooling turned on. The recipe composition of the starting mixtures are presented in table. 1. The mixture is then pulverized on a disintegrator for further homogenization. From the finished mixture in a cold mold is formed into blanks under a pressure of 20-25 MPa. Then, the preform is transferred to the hot-forming mold, at a temperature of 0 170 ± 10 ° C and a pressure of 40.0 MPa, the articles are formed, keeping in the mold at the rate of 1.0-1.5 min per 1 mm of the thickness of the product. During hot molding, rubber interacts with a volcanic 5 group and a three-dimensional spatial structure of the polymer matrix is formed.

Coefficient of friction and linear wear of materials were evaluated according to the results of laboratory tests conducted by the I-32 machine at friction speed of 7.0-7.5 m / s; temperature 100-120 ° C; specific load 27 n / cm2 and a constant momentum of 11.8 N m for 2 hours of continuous training.

Physicomechanical indicators were determined according to GOST 9454-78, 4651-82 and 17302-71.

Bench tests of inserts made of material according to examples 3 and 6 and of known material were carried out. The linear wear rate in the coupling was determined at a pressure on the liner surface of 1.02-1.48 MPa and a temperature of 60 g70 ° C; linear wear rate in the brake at a pressure of 0.29-0.435 MPa and a temperature of 80-140 ° C. The linear wear rate was determined by the formula

silt

 St

LUD

where UP is the average linear wear across the thickness of the liner of the clutch or brake stand for one of its inclusion, microns;

Aud. - the average specific friction work per unit of rubbing surface of the liner for one clutch or brake engagement, kJ / m2.

The coefficient of friction of the liner – counterbody pair in the brake was determined at 17–90 ° С and specific pressure 0.2–0.6 MPa. Counterbody material SCH25 cast iron.

The noise characteristics were measured using a ShShV-1 sound level meter and a M101 microphone according to the OST 2N-89-7-81 method.

When using friction elements from the proposed friction material in clutches and brakes of forge-and-press machines, a decrease in the generated noise is noted when the clutch and brake are shocked at frequencies above 500 Hz to 8000 Hz. The average levels of both sound pressure and sound power recorded during tests on the bench in active bands,

0 starts from 500 to 8000 Hz, lower by 2-10 dB in comparison with similar indicators when using the friction elements of the prototype.

Test results are presented in

5 tab. 2 and 3.

As can be seen from the presented data, the claimed friction material has high strength indices, good frictional and wear properties, which ensures the operation of forging and pressing machines for up to 20 years under cyclic end loads on the fractional element. In addition, the use in clutches and brakes of friction elements from

5 of the claimed friction material made it possible to reduce the noise generated during shock engagement of the clutch and brake at frequencies above 500 Hz.

0 (56) Application of Germany N 3230441, cl. C 08 J

5/14, publ. 1984.

Application for Germany N 3338365. cl. S 09 K 3/14, publ. 1984.

German Application Nfc 3637022, class C 08 J 5/14, 5 publ. 1986.

USSR author's certificate N 219782, cl. C 08 L 9/00, 1965.

T i6l ica1

Continuation of the table. 1

 Requirements TU 38 414393-90 friction liner for forging and pressing machines, friction coefficient for cast iron SCh 15 according to GOST 1412-85 when tested on a friction laboratory machine 0.43 - 0.60

Linear wear on cast iron SCH 15 LO GOST 1412-85 when tested on a friction laboratory machine, mm, not more than

Strength, MLa (kgf / cm) not less than:

-in compression

when cutting

 The destruction of the surface of the liner after testing

Table

40 (400) 20 (200)

Table3

Claims (1)

The formula of the invention in relation to components, m.h .: composition for the manufacture of friction-butadiene rubber 100 MATERIAL based on butadiene Sulfur vulcanizing group rubber, including sulfuric vulcanizing PA 9.1 -26.3 barite, graphite, alumina-barite 113.6-221.1 nor fibrous filler, Alumina 13.6-52.6 different with that. that as fiber is graphite 13.6-42.1 The bulk filler composition contains mineral wool 68.2 - 105.3 mineral wool, carbon fiber and carbon fiber 4.6-42.1 polyamide fiber in the next co-polyamide fiber 22.7 - 63.2