CN106351057A - Bismuth ferrite nanofiber-modified and carbon nanotube-modified carbon fiber reinforced type paper-based friction material and preparation method thereof - Google Patents

Abstract

The invention discloses a bismuth ferrite nanofiber-modified and carbon nanotube-modified carbon fiber reinforcing type paper-based friction material. The bismuth ferrite nanofiber-modified and carbon nanotube-modified carbon fiber reinforcing type paper-based friction material is prepared from the following raw materials in parts by weight: 1.1 to 1.4 parts of copper nanopowder, 52 to 54 parts of carbon fiber, 27 to 28 parts of bamboo fiber, 3.5 to 4 parts of carbon nanotube, 2.3 to 2.8 parts of fully-vulcanized nanopowder carboxylic acrylonitrile butadiene rubber, 5 to 5.5 parts of aramid pulp, 1.3 to 1.5 parts of silane coupling agent kh-550, 3 to 3.5 parts of cerous nitrate, 10 to 11 parts of silicon carbide, 14 to 15 parts of zirconium boride, 10 to 12 parts of cashew nut shell modified phenolic resin with solid content of 20%, 0.8 to 1.2 parts of nano celestite powder, 0.8 to 1 part of lithium silicate, 1.7 to 1.9 parts of bismuth ferrite nanofiber, and a proper amount of water. The bismuth ferrite nanofiber-modified and carbon nanotube-modified carbon fiber reinforcing type paper-based friction material has the advantages that by using the bismuth ferrite nanofiber, the abrasion-resistant property of material is improved, the antiferromagnetism effect is realized, the magnetic interference is prevented, and the stable friction coefficient is maintained.

Description

A kind of bismuth ferrite nano fiber modified carbon nano-tube modified carbon fiber strengthens paper substrate friction Material and preparation method thereof

Technical field

The present invention relates to clutch friction material technical field, more particularly, to a kind of bismuth ferrite nano fiber modified carbon nano tube Pipe modified carbon fiber strengthens paper friction material and preparation method thereof.

Background technology

In recent years, developing rapidly with automobile industry and aircraft industry, the research of friction material field also there occurs Growth rapidly.Paper friction material, as the important Wet-type friction material of a class, is mainly used in car transmissions On clutch.The coefficient of friction, friction stability, thermostability and the wearability that how to improve paper friction material remain current The subject matter that paper friction material faces.For this reason, many scholars interface between fiber and resin from raising material Start with conjunction with filler systems two aspect excellent with searching out frictional behaviour, expand research." carbon nano-tube modification carbon fiber increases The preparation of strong paper friction material and research " literary composition first passes through interpolation bamboo fibre and CNT has prepared interfacial bonding property Preferably paper friction material.Research finds, the addition of CNT can improve the boundary of fiber and resin in material well Face binding ability, thus improve the frictional behaviour of material.When content of carbon nanotubes is for 4wt.%, the coefficient of kinetic friction of sample Reach maximum, be 0.1031, now, the friction stability of sample and anti-wear performance are also preferable.Heat analysis result shows, sample During being heated to 1000 DEG C, the mass loss of sample adding 4wt.% CNT is than the sample being not added with CNT Decrease 10%.Sem test result shows, in whole system, bamboo fibre can be good at being attached on carbon fiber, changes It has been apt to the interfacial combined function between carbon fiber and resin, and CNT Preferential adsorption has been on bamboo fibre, this has protected bamboo again Decomposes in friction process for the fiber, improve the heat resistance of sample.In order to further improve the frictional property of material Can, we be separately added in above-mentioned system the fillers such as carborundum, boron carbide, aluminium oxide, zirconium oxide and zirconium boride and Rare earth compound, and have studied the relation between filer content and rare earth species etc. and sample frictional behaviour, different fillers are existed The frictional behaviour of the action mode in system and sample has carried out Primary Study.Result shows, when containing 3wt.%ce in sample (no₃) 3 and 15wt.% zirconium boride when, the frictional behaviour of material is optimal, and the coefficient of kinetic friction of material is 0.13285, moves/static friction Coefficient ratio is 0.9010, and the coefficient of variation in 500 friction processes for the coefficient of kinetic friction is 0.75, and wear rate is 0.6 × 10^{- 8}cm³j^-1.Finally, have studied with zirconium boride as filler, the compression rebound of carbon nano-tube modification fibre reinforced paper friction material Performance, heat conductivility, heat resistance and dynamic mechanical, and analyze the pass between these performances and sample frictional behaviour System.Result shows, the increase with boronation zirconium content although the compression ratio of sample and heat conductivity are declined slightly, but, dynamically Mechanical test and Thermal Synthetic Analysis result show, the sample containing 15wt.% zirconium boride has higher storage moduluss and thermostability Energy.By the research of the composition-storage moduluss-thermostability-frictional behaviour relation of material, storage moduluss and heat-resisting in discovery system Performance plays a crucial role to the frictional behaviour of material, and the storage moduluss of sample are bigger, and insensitivity is better, and heat resistance is got over Good, friction stability is higher, and the wear rate of material is lower.

Friction material derived above has good performance, but the material being directly mixed to get can be easily separated so that rubbing Wipe unstable properties, braking ability is unstable.Above-mentioned article is modified to CNT using maleic anhydride, improves carbon and receives The dispersibility of mitron, can be dispersed in bamboo fibre surface, form stable combination with bamboo fibre, but the thermostability of bamboo fibre is also It is not fully up to expectations although CNT improves thermostability and the frictional property of bamboo fibre, but in the case of being heated, maleic acid The polymer substance carbonization that acid anhydride is formed, CNT is separated with bamboo fibre, affects frictional behaviour.

Add aramid fiber and can improve the frictional behaviour of friction material, but the thermostability of aramid fiber poor so as to Application in heavy load machinery receives a definite limitation.And aramid fiber surface inertia, crystallization degree are high, are combined with matrix Bad, have impact on the performance of the composite of aramid fiber.With rare earth to carbon fiber and bamboo fibre modifying surface, improve fiber Wearability and thermostability, but the combination of rare earth and fiber insecure, easily separated after friction, cause changing of frictional behaviour Become.Also need to improve the thermostability of friction material, friction stability, ageing resistance, antibiotic property, toughness, static electricity resistance, wear-resisting Property, other performances such as anti-slip, compactness, heat conductivity.

Content of the invention

The object of the invention is exactly the defect in order to make up prior art, provides a kind of bismuth ferrite nano fiber modified carbon nano tube Pipe modified carbon fiber strengthens paper friction material and preparation method thereof.

The present invention is achieved by the following technical solutions:

A kind of bismuth ferrite nano fiber modified carbon nano-tube modified carbon fiber strengthens paper friction material, former by following weight portion Material is made: copper nanoparticle 1.1-1.4, carbon fiber 52-54, bamboo fibre 27-28, CNT 3.5-4, full sulfuration nanometer powder carboxylic Base nitrile rubber 2.3-2.8, Fanglun slurry cake 5-5.5, silane coupler kh-550 1.3-1.5, cerous nitrate 3-3.5, carborundum 10-11, zirconium boride 14-15, solid content are 20% cashew nut oil modified alkyd resin 10-12, Nano celestite powder 0.8-1.2, silicon Sour lithium 0.8-1, bismuth ferrite nano fiber 1.7-1.9, appropriate amount of water.

Described bismuth ferrite nano fiber modified carbon nano-tube modified carbon fiber strengthens the preparation method of paper friction material, bag Include following steps:

(1) Fanglun slurry cake is dispersed in water, adds silane coupler kh-550, stir, add copper nanoparticle, stirring 10-15 minute, dry, pulverize, and obtains modifying aramid fiber pulp；

(2) by Nano celestite powder, Lithium metasilicate, bismuth ferrite nano fiber mixed grinding uniformly, obtain mixed material；By carbon nanometer Pipe, full sulfuration nanometer powder carboxy terminated nitrile rubber mixed grinding uniformly, obtain powder, bamboo fibre are added to the water, while stirring Add described powder and described mixed material, stir, ultrasonic disperse 7-10 minute, it is dried, in 11-12mpa, 120-125 DEG C, time-triggered protocol 40-50s, obtain modified bamboo fibre；

(3) modifying aramid fiber pulp, modified bamboo fibre and other residual componentss are put in water, discongest uniformly in fluffer, Obtain suspension, in paper molding device suspension being poured into 100-150 mesh sieve, make the thin slice that thickness is 0.7-0.8 μm, will Thin slice is vacuum dried 20-23 minute at 105-108 DEG C, cashew nut oil modified alkyd resin is sprayed on thin slice, naturally dries in the air Dry, place into sulfuration in vulcanizer, conditions of vulcanization is 11-12mpa, 120-125 DEG C, and the time is 250-260s, obtains final product.

The invention has the advantage that the present invention uses copper nanoparticle to adsorb on Fanglun slurry cake surface, improve Fanglun slurry cake , so that friction material is finer and close, coefficient of friction is more stable thermostability, the shortcoming of customer service Fanglun slurry cake heat stability difference.Logical Cross and using CNT, bamboo fibre is modified, improve the thermostability of bamboo fibre, but easy and bamboo fibre after being rubbed Separate so that coefficient of friction is unstable, be used in combination full sulfuration nanometer powder carboxy terminated nitrile rubber, through reacting by heating so that CNT is formed with bamboo fibre and is stably firmly combined, and improves friction stability, improves the stability of bamboo fibre simultaneously, Form the carbonized film of softness when being heated so that coefficient of friction is high and stablize.By using bismuth ferrite nano fiber, improve material The wearability of material, so that material has anti-ferromagnetism, prevents the interference of magnetic, keeps stable coefficient of friction, nanometer celestite Powder, the use of Lithium metasilicate improve wearability and the thermostability of bamboo fibre, mix with bismuth ferrite nano fiber, and load bismuth ferrite is received Rice fiber is dispersed in the material.

Specific embodiment

A kind of bismuth ferrite nano fiber modified carbon nano-tube modified carbon fiber strengthens paper friction material, by following weight portion The raw material of (kilogram) is made: copper nanoparticle 1.1, carbon fiber 52, bamboo fibre 27, CNT 3.5, full sulfuration nanometer powder carboxyl Nitrile rubber 2.3, Fanglun slurry cake 5, silane coupler kh-550 1.3, cerous nitrate 3, carborundum 10, zirconium boride 14, solid content are 20% cashew nut oil modified alkyd resin 10, Nano celestite powder 0.8, Lithium metasilicate 0.8, bismuth ferrite nano fiber 1.7, appropriate amount of water.

Described bismuth ferrite nano fiber modified carbon nano-tube modified carbon fiber strengthens the preparation method of paper friction material, bag Include following steps:

(1) Fanglun slurry cake is dispersed in water, adds silane coupler kh-550, stir, add copper nanoparticle, stirring 10 minutes, dry, pulverize, obtain modifying aramid fiber pulp；

(2) by Nano celestite powder, Lithium metasilicate, bismuth ferrite nano fiber mixed grinding uniformly, obtain mixed material；By carbon nanometer Pipe, full sulfuration nanometer powder carboxy terminated nitrile rubber mixed grinding uniformly, obtain powder, bamboo fibre are added to the water, while stirring Add described powder and described mixed material, stir, ultrasonic disperse 7 minutes, it is dried, in 11mpa, 120 DEG C, time-triggered protocol 40s, obtains modified bamboo fibre；

(3) modifying aramid fiber pulp, modified bamboo fibre and other residual componentss are put in water, discongest uniformly in fluffer, Obtain suspension, in paper molding device suspension being poured into 100 mesh sieves, make the thin slice that thickness is 0.7 μm, by thin slice 105 It is vacuum dried 20 minutes at DEG C, cashew nut oil modified alkyd resin is sprayed on thin slice, naturally dries, place in vulcanizer Sulfuration, conditions of vulcanization is 11mpa, 120 DEG C, and the time is 250s, obtains final product.

Experimental data:

The coefficient of kinetic friction of the thin slice of the present embodiment is 0.1409, move/confficient of static friction ratio for 0.9004, the coefficient of kinetic friction exists The coefficient of variation in 500 friction processes is 0.73, and wear rate is 0.46 × 10^-8cm³j^-1.

Claims (2)

1. a kind of bismuth ferrite nano fiber modified carbon nano-tube modified carbon fiber strengthen paper friction material it is characterised in that: by The raw material of following weight portion is made: copper nanoparticle 1.1-1.4, carbon fiber 52-54, bamboo fibre 27-28, CNT 3.5-4, complete Sulfuration nanometer powder carboxy terminated nitrile rubber 2.3-2.8, Fanglun slurry cake 5-5.5, silane coupler kh-550 1.3-1.5, cerous nitrate 3-3.5, carborundum 10-11, zirconium boride 14-15, solid content are 20% cashew nut oil modified alkyd resin 10-12, nanometer celestite Powder 0.8-1.2, Lithium metasilicate 0.8-1, bismuth ferrite nano fiber 1.7-1.9, appropriate amount of water.

2. bismuth ferrite nano fiber modified carbon nano-tube modified carbon fiber strengthens paper friction material according to claim 1 Preparation method is it is characterised in that comprise the following steps:

(1) Fanglun slurry cake is dispersed in water, adds silane coupler kh-550, stir, add copper nanoparticle, stirring 10-15 minute, dry, pulverize, and obtains modifying aramid fiber pulp；

(2) by Nano celestite powder, Lithium metasilicate, bismuth ferrite nano fiber mixed grinding uniformly, obtain mixed material；By carbon nanometer Pipe, full sulfuration nanometer powder carboxy terminated nitrile rubber mixed grinding uniformly, obtain powder, bamboo fibre are added to the water, while stirring Add described powder and described mixed material, stir, ultrasonic disperse 7-10 minute, it is dried, in 11-12mpa, 120-125 DEG C, time-triggered protocol 40-50s, obtain modified bamboo fibre；

(3) modifying aramid fiber pulp, modified bamboo fibre and other residual componentss are put in water, discongest uniformly in fluffer, Obtain suspension, in paper molding device suspension being poured into 100-150 mesh sieve, make the thin slice that thickness is 0.7-0.8 μm, will Thin slice is vacuum dried 20-23 minute at 105-108 DEG C, cashew nut oil modified alkyd resin is sprayed on thin slice, naturally dries in the air Dry, place into sulfuration in vulcanizer, conditions of vulcanization is 11-12mpa, 120-125 DEG C, and the time is 250-260s, obtains final product.