Rubber based granular material and preparation method thereof

A granular material and rubber-based technology, which is applied in the field of auto parts, can solve the problems of formula ratio changes, cost increase, performance deterioration, etc., and achieve the effects of improving adhesion, meeting wear resistance, and long life

Active Publication Date: 2017-02-15
SHANDONG GOLD PHOENIX
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0013] Aiming at the deficiencies in the prior art, the present invention proposes a rubber-based granule material and its preparation method, which effectively solves the problems in the prior art, such as changes in formula proportions and cost increases caused by unequal substitution of copper. Poor performance, non-environmental protection and other defects

Method used

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  • Rubber based granular material and preparation method thereof
  • Rubber based granular material and preparation method thereof

Examples

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Effect test

Embodiment 1

[0045] 1. Preparation of multi-component thermal conductive composite powder

[0046] Based on the total mass of the raw material components of the multi-element heat-conducting composite powder, the multi-element heat-conducting composite powder includes the following components and mass percentages: 4% phenolic resin, 1% aramid pulp, and 14% mineral fiber , flake graphite 8%, tin sulfide 9%, magnesium oxide 15%, aluminum oxide 5%, carbon fiber 9%, iron oxide black 5%, barium sulfate 30%.

[0047] Preparation method: (1) First add aramid pulp, barium sulfate, and magnesium oxide into a high-speed mixer and stir for 6 minutes at a stirring speed of 1000 rpm; (2) Then add phenolic resin, mineral fiber, flake graphite, vulcanized Seven raw materials including tin, aluminum oxide, iron oxide black, and carbon fiber were added to a high-speed mixer and stirred for 10 minutes at a stirring speed of 1000 rpm, so that all raw materials were evenly mixed to obtain a multi-component he...

Embodiment 2

[0054] 1. Preparation of multi-component thermal conductive composite powder

[0055] Based on the total mass of the raw material components of the multi-element heat-conducting composite powder, the multi-element heat-conducting composite powder includes the following components and mass percentages: 1% phenolic resin, 2% aramid pulp, and 10% mineral fiber , flake graphite 3%, tin sulfide 8%, magnesium oxide 25%, aluminum oxide 1%, carbon fiber 15%, iron oxide black 15%, barium sulfate 20%.

[0056] Preparation method: (1) Add aramid pulp, barium sulfate, and magnesium oxide to a high-speed mixer and stir for 10 minutes at a stirring speed of 1000 rpm; (2) Then add phenolic resin, mineral fiber, flake graphite, vulcanized Seven raw materials including tin, aluminum oxide, black iron oxide, and carbon fiber were added to a high-speed mixer and stirred for 5 minutes at a stirring speed of 1000 rpm, so that all raw materials were evenly mixed to obtain a multi-component heat-con...

Embodiment 3

[0063] 1. Preparation of multi-component thermal conductive composite powder

[0064] Based on the total mass of the raw material components of the multi-element heat-conducting composite powder, the multi-element heat-conducting composite powder includes the following components and mass percentages: 2% phenolic resin, 0.5% aramid pulp, and 20% mineral fiber , flake graphite 4.5%, tin sulfide 15%, magnesium oxide 18%, aluminum oxide 3%, carbon fiber 5%, iron oxide black 9%, barium sulfate 23%.

[0065] Preparation method: (1) First add aramid pulp, barium sulfate, and magnesium oxide into a high-speed mixer and stir for 2 minutes at a stirring speed of 1000 rpm; (2) Then add phenolic resin, mineral fiber, flake graphite, vulcanized Seven raw materials including tin, aluminum oxide, black iron oxide, and carbon fiber were added to a high-speed mixer and stirred for 15 minutes at a stirring speed of 1000 rpm, so that all raw materials were mixed evenly to obtain a multi-compone...

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Abstract

The invention provides a rubber based granular material and a preparation method thereof, and more specifically relates to the technical field of automobile components. The total mass of raw material components of the rubber based granular material is used as a reference for calculation, and the rubber based granular material comprises the following raw material components in percentages by mass: 7-12% of butyronitrile rubber, 2-5% of styrene butadiene rubber, 3-7% of carbon black, 1-4% of sulphur, 1-3% of a vulcanization accelerator, and 70-85% of a multielement heat-conducting composite powder. The rubber based granular material can replace brass fiber in a friction material in equal proportion, and friction performance and abrasiveness of the prepared friction material are nearly not changed; at the same time, compared with the brass fiber, the noise reduction performance of the rubber based granular material is better, comfort level of a pedal in a braking process is greatly improved, initial performance is excellent when the addition amount is small, and running-in period is shortened; the rubber based granular material has the advantages of cleaning, and environmental protection without pollution.

Description

technical field [0001] The invention relates to the technical field of auto parts, in particular to a rubber-based granular material and a preparation method thereof. Background technique [0002] In recent years, the global automobile industry has developed rapidly. As one of the key components in auto parts, brake pads not only determine the safe and comfortable driving of the car, but also one of the important factors affecting energy conservation and environmental protection in the automotive industry. [0003] The development of friction materials for automobile brake pads has a history of hundreds of years. In order to meet the needs of global development, at present, asbestos-type friction materials have been eliminated due to the strong carcinogenicity of asbestos, and replaced by semi-metallic, low-metal and non-metallic. Asbestos organic (NAO) friction material, and copper, as a good regulator in the above friction material formula, has good thermal properties, me...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L9/02C08L9/06C08L61/06C08L77/06C08K13/04C08K7/06C08K3/04C08K3/06C08K5/47C08K5/40C08K3/22C08K3/30F16D69/02C09K5/14
CPCC08K2201/011C08L9/02C08L2205/02C08L2205/035C08L2205/16C09K5/14F16D69/023C08L9/06C08L61/06C08L77/06C08K13/04C08K7/06C08K3/04C08K3/06C08K5/47C08K5/40C08K2003/3009C08K2003/222C08K2003/2227C08K2003/3045
Inventor 王传方甄明晖仇溢
Owner SHANDONG GOLD PHOENIX
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