Reinforced organic ceramic friction material and preparation method thereof

A technology of friction materials and organic ceramics, applied in the direction of friction linings, chemical instruments and methods, mechanical equipment, etc., can solve the problems of product strength reduction, wear of dual materials, high cost, etc., and achieve low friction loss rate, stable friction coefficient, good impact strength

Inactive Publication Date: 2017-12-22
甘肃澜驰汽车配件有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] (1) Semi-metallic friction material: the friction coefficient declines less, and the wear resistance is good, but its disadvantages are: ①Steel fiber is easy to rust, and it is easy to stick or damage the pair after corrosion, and the strength of the product after corrosion decreases and wears Increase; ②The thermal conductivity is high, and it is easy to cause air resistance in the braking system at high temperature, causing the friction layer to separate from the steel plate: ③The hardness is high, which will damage the dual material, resulting in chatter and low-frequency braking noise: ④High density
[0004] (2) Glass fiber friction material: low cost, easy to form, simple process, good friction and mechanical properties, but glass fiber is brittle, easy to break during mixing and loses a large reinforcement; smooth surface, small specific surface area, It is not easy to adsorb resin and filler, which will cause the glass fiber to separate from the resin matrix and filler and make the components mixed unevenly; the high hardness will cause the friction coefficient of the friction material to be unstable, the wear will be large, and the pair material will

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0020] Example 1: A reinforced organic ceramic friction material, which is made of the following raw materials in mass percentage: 25.6% sulfone fiber, 9% potassium titanate whisker, 12.6% aramid fiber, 7% copper fiber, ceramic 4% fiber, 4% zircon, 3.4% vermiculite, 15% graphite, 2.2% carbon black, 2.2% antimony trisulfide, 2.2% magnesium oxide, 1.2% mica, 3.6% nitrile rubber powder, nitrile rubber Modified phenolic resin 8%.

[0021] The preparation method of the brake friction material comprises the following steps:

[0022] Step 1. Weigh 9% potassium titanate whiskers, 12.6% aramid fibers, 7% copper fibers and 4% ceramic fibers as reinforcing fibers, and weigh 25.6% arylsulfone fiber , are put into the grinder and ground into mixed powder;

[0023] Step 2: Weigh 4% zircon, 3.4% vermiculite, 15% graphite, 2.2% carbon black, 2.2% antimony trisulfide, 2.2% magnesium oxide, 1.2% mica, grind Made into pellets with a diameter of 4-6mm;

[0024] Step 3: Weigh the nitrile rubbe...

Embodiment 2

[0027] Example 2: A reinforced organic ceramic friction material, which is made of the following raw materials in mass percentage: 26.3% sulfone fiber, 7.3% potassium titanate whisker, 10.8% aramid fiber, 6% copper fiber, ceramic 3.7% fiber, 4.3% zircon, 3.7% vermiculite, 15.7% graphite, 2.6% carbon black, 2.6% antimony trisulfide, 2.6% magnesium oxide, 1.6% mica, 3.8% nitrile rubber powder, nitrile rubber Modified phenolic resin 9%.

[0028] The preparation method of the reinforced organic ceramic friction material is the same as that in Example 1.

Embodiment 3

[0029] Example 3: A reinforced organic ceramic friction material, which is made of the following raw materials in mass percentages: 27% sulfone fiber, 5.6% potassium titanate whisker, 9% aramid fiber, 5% copper fiber, ceramic 3.4% fiber, 4.6% zircon, 4% vermiculite, 16.4% graphite, 3% carbon black, 3% antimony trisulfide, 3% magnesium oxide, 2% mica, 4% nitrile rubber powder, nitrile rubber Modified phenolic resin 10%.

[0030] The preparation method of the reinforced organic ceramic friction material is the same as that in Example 1.

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Abstract

The invention relates to a reinforced organic ceramic friction material which is prepared from 25.6-27% of polysulfonamide, 5.6-9% of potassium titanate whiskers, 9-12.6% of aramid fiber, 5-7% of copper fiber, 3.4-4% of ceramic fiber, 4-4.6% of zirconite, 3.4-4% of vermiculite, 15-16.4% of graphite, 2.2-3% of carbon black, 2.2-3% of antimony trisulfide, 2.2-3% of magnesium oxide, 1.2-2% of mica, 3.6-4% of nitrile rubber powder and 8-10% of nitrile rubber modified phenolic resin. During preparation, a preparation method comprises the steps: firstly grinding polysulfonamide, the potassium titanate whiskers, the aramid fiber, the copper fiber and the ceramic fiber to form powder; then, grinding zirconite, vermiculite, graphite, carbon black, antimony trisulfide, magnesium oxide and mica to form particles; and finally, mixing the nitrile rubber powder and the nitrile rubber modified phenolic resin with the powder and the particles, and carrying out hot pressing on the mixture to obtain the reinforced organic ceramic friction material. The reinforced organic ceramic friction material is stable in friction performance, low in wear rate, long in service life and free of noise.

Description

technical field [0001] The invention relates to the technical field of automobile braking, in particular to an organic ceramic friction material and a preparation method thereof. Background technique [0002] Automobile friction material is the key material in automobile brakes, clutches and friction transmission devices. It converts the kinetic energy of automobile movement into heat energy and other forms of energy, so that the automobile slows down or stops. Its main function is friction. It is a multi-component composite material that requires structural performance. Therefore, its performance is directly related to the reliability and stability of the system operation. With the development of the automobile industry in various developed countries and the improvement of environmental protection awareness in modern society, the operation of friction materials The conditions are becoming more and more stringent, and its performance requirements are getting higher and highe...

Claims

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Application Information

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IPC IPC(8): C09K3/14C08J5/14F16D69/02
CPCC08J5/00C09K3/149F16D69/028F16D2200/0043F16D2200/0052F16D2200/006F16D2200/0065F16D2200/0082
Inventor 师章雨吕亚非
Owner 甘肃澜驰汽车配件有限公司
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