CN1712749A - Production of self-lubricating abrasive sliding bearing from polytef composite material - Google Patents

Abstract

A technology for preparing the self-lubricating antiwear slide bearing from teflon includes such steps as using RE to modify the surfaces of carbon fibres, sintering a layer of bronze powder as intermediate layer on the surface of a steel plate, rolling to attach a layer of polymer containing said modified carbon fibres, sintering under protection of N2, mechanical trimming, coiling and welding. Said RE modifier contains RE compound, alcohol, complexon, ammonium chloride, nitric acid and urea. Said polymer contains teflon, said modified carbon fibres and lead powder.

Description

The preparation method of self-lubricating abrasive sliding bearing from polytef composite material

Technical field

The present invention relates to a kind of preparation method of novel wear resistant sliding bearing, relate in particular to a kind of preparation method of self-lubricating abrasive sliding bearing from polytef composite material, adopt filled with carbon fibers ptfe composite through the rare earth surface modification treatment, because it has excellent tribological property, make the bearing that makes have excellent friction and wear behavior, have higher reliability and Economy in actual applications.

Background technique

Composite material sliding bearing is a kind of novel oil-free lubrication sliding bearing, and at home and abroad some industrial departments are used very extensive.This bearing material is to be base material with the steel plate, and sintering one deck bronze powder is done the mesosphere on base material, and rolling thereon one deck high molecule plastic or polymer composite can selflubricatings as surface layer.It has given full play to the rigidity of metal and the self lubricity excellent characteristics of plastics, thereby has remedied the shortcoming of the unstable and metal dry friction difference of plastics size, makes it to have endurance, bearing capacity height, characteristics such as wear resistance is good, the life-span is long.

The production technology of carbon fiber reinforced ptfe is comparatively ripe, and raw material sources are extensive, and cost is relatively low, is one of Application and Development thermoplastic composite material kind early.The carbon fiber reinforced ptfe composite material has course of working and does not have chemical reaction, molding cycle is short, renewable, reusable and mechanical property is good advantage, can be used as the surface bears layer of composite bearing.

But, carbon planes of molecules in the carbon fiber is parallel-oriented along fiber axis, the surface is chemical inertness, and the compatibility between the poly tetrafluoro ethylene matrix is relatively poor, is difficult to form chemical bond connection and interface layer and has immiscible component, and interface binding intensity is low, compound tense forms space and defective easily on the interface, strengthen body and matrix resin and be difficult to be formed with effective adhesive, influence the performance of composite material combination property, especially influence the tribological property of chopped carbon fiber filled polytetrafluoroethylene composite material.

At present, mainly use oxidizing process, sedimentation waits the interface binding power that improves carbon fiber and polymeric matrix, to improve the combination property of carbon fiber reinforced polymer composite material.These methods have been improved the combination force of interface phase to a certain extent, have improved the use value of composite material, but do not reach desirable effect.Thereby cause the friction factor of polytetrafluoroethylene (PTFE) composite material of filled with carbon fibers bigger, damage fricting couple piece easily, tribological property is relatively poor, and bearing or lining that this material is made can not be applied under many actual conditionss.Along with progress of modern technology, more and more higher to the bearing performance requirement, require it to have good friction and wear behavior, to adapt to the actual conditions of requirements at the higher level.

Publication number is that the Chinese invention patent of CN1126286A discloses a kind of composite bearing, it is by inside and outside two-layer the composition, internal layer is made up of by certain percentage copper powder, teflon, graphite, skin is made up of by certain percentage epoxy resin, polyimide, the non-twist glass fibre of alkali-free, be the alternative of metallic sheath bearing, but can not be applied to the plain bearing field.

Publication number is that the Chinese invention patent of CN1445284A discloses a kind of nano zine oxide filled polyimide material, has excellent mechanical property, resistance to heat and tribological property, but also is not applied to composite bearing at present.

Summary of the invention

The objective of the invention is at the deficiencies in the prior art, a kind of preparation method of self-lubricating abrasive sliding bearing from polytef composite material is provided, the bearing that makes has excellent tribological property, improve its reliability in actual applications greatly, go for the actual conditions of high request.

For making sliding bearing with excellent friction and wear behavior, in the technological scheme of the present invention, adopt raw materials such as steel plate, bronze powder, teflon, carbon fiber, rare-earth modifier and a small amount of lead powder, adopt method such as rolling to make sliding bearing.At first carbon fiber is carried out surface modification treatment; then at surface of steel plate sintering one deck bronze powder as the mesosphere; rolling one deck is by lead powder with through the ptfe composite of the filled with carbon fibers of rare-earth modifier for treatment on the mesosphere; sintering, machining under the process nitrogen protection condition is modified and is rolled welding again, makes composite material sliding bearing.Carbon fiber/ptfe composite the sliding bearing that makes through above-mentioned technology has excellent mechanical property and tribological property.

Composite material sliding bearing preparation method of the present invention is specially:

At first, carbon fiber is carried out pretreatment, ablated 0.5～1 hour in 450～600 ℃ of muffle furnaces, the weight percentage that makes its surface organic matter residual quantity is below 1%.Adopt rare-earth modifier for treatment then, carbon fiber is at room temperature immersed in the modifier, soaked 2～4 hours, after the filtration, oven dry.The weight percentages of components of the rare-earth modifier that is adopted is: rare earth compound: 2～10%; Ethanol: 75～95%; Ethylenediamine tetra-acetic acid (EDTA): 1～10%; Ammonium chloride: 1～5%; Nitric acid: 0.5～1%; Urea: 0.5～2%.

Rare earth compound in the rare-earth modifier of the present invention can be lanthanum chloride, cerium chloride, lanthana or cerium oxide.

At steel plate upper berth one deck bronze powder, thickness is 0.25～0.30 millimeter then, is in the same place with the substrate of steel plate sintering at 800 ℃ of following copper powders of condition, makes surface of steel plate sintering one deck bronze powder as the mesosphere, and the time is 2 hours; The polymeric layer that rolling one deck is formed by teflon, through the carbon fiber of rare-earth modifier for treatment and a small amount of lead powder on the bronze powder mesosphere of sintering; thickness is 0.01～0.03 millimeter; pressure is 30MPa; then under the nitrogen protection condition; under 380 ℃ of conditions, carry out sintering; modify through machining again, at last through rolling, be welded into composite bearing.

Wherein, polymeric layer raw material composition weight percentage of the present invention is:

Teflon: 70～95%,

The carbon fiber that rare-earth modifier for treatment is crossed: 4～25%,

Lead powder: 1～5%.

The present invention is applicable to the carbon fiber reinforced ptfe composite material sliding bearing that various weak points are cut, and wherein carbon fiber comprises the PAN base and the asphalt base carbon fiber of various models, as T-300 etc.Teflon comprises with suspension polymerization and through the polyflon of the broken various trades mark that form of fine powder, as SM021 etc.

The present invention has significant effect.The bearing that has adopted rare earth modified carbon fiber filled polytetrafluoroethylene composite material to make have excellent more tribological property and mechanical property, and the rare-earth modifier for treatment technological method is simple, and cost is low, environmentally safe, good manufacturability.Composite bearing wear resistance of the present invention is good, and tribological property is significantly improved, and can be used for the occasion of the various oil-free lubrications of department such as machinery, food, Aero-Space.

Embodiment

Below by specific embodiment technological scheme of the present invention is further described, but do not constitute limitation of the invention.

Embodiment 1:

The weight percentages of components of composite material sliding bearing polymeric layer is: teflon: 70%, and the carbon fiber that rare-earth modifier for treatment is crossed: 25%, lead powder: 5%.

Each weight percentages of components of rare-earth modifier is as follows:

Lanthanum chloride: 2%, ethanol: 93%, ethylenediamine tetra-acetic acid (EDTA): 2%, ammonium chloride: 1%, nitric acid: 0.5%, urea: 1.5%.

The composite bearing manufacture process is as follows: at first, carbon fiber is carried out pretreatment, ablated 1 hour in 450 ℃ of muffle furnaces, the weight percentage that makes its surface organic matter residual quantity is below 1%.Adopt rare-earth modifier for treatment then, carbon fiber is at room temperature immersed in the rare-earth modifier, soaked 3 hours, after the filtration, oven dry.Then at steel plate upper berth one deck bronze powder, thickness is 0.25 millimeter, is in the same place with the substrate of steel plate sintering at 800 ℃ of following bronze powders of condition, makes surface of steel plate sintering one deck bronze powder as the mesosphere, and the time is 2 hours; The polymeric layer that rolling one deck is formed by teflon, through the carbon fiber of rare-earth modifier for treatment and a small amount of lead powder on the bronze powder mesosphere of sintering; thickness is 0.01 millimeter; pressure is 30MPa; then under the nitrogen protection condition; under 380 ℃ of conditions, carry out sintering; modify through machining again, at last through rolling, be welded into composite bearing.

The sliding bearing for preparing is carried out tribology test, loading 3000N, Sliding velocity is that to record friction factor under the 3.00m/s condition be 0.0028.

Embodiment 2:

The weight percentages of components of composite material sliding bearing polymeric layer is: teflon: 80%, and the carbon fiber that rare-earth modifier for treatment is crossed: 15%, lead powder: 5%.

Each weight percentages of components of rare-earth modifier: cerium chloride 7%; Ethanol 76%; Ethylenediamine tetra-acetic acid (EDTA) 9%; Ammonium chloride 5%; Nitric acid 1%; Urea 2%.

The composite bearing manufacture process is as follows: at first, carbon fiber is carried out pretreatment, ablated 0.8 hour in 500 ℃ of muffle furnaces, the weight percentage that makes its surface organic matter residual quantity is below 1%.Adopt rare-earth modifier for treatment then, carbon fiber is at room temperature immersed in the modifier, soaked 4 hours, after the filtration, oven dry.Then at steel plate upper berth one deck bronze powder, thickness is 0.3 millimeter, is in the same place with the substrate of steel plate sintering at 800 ℃ of following bronze powders of condition, makes surface of steel plate sintering one deck bronze powder as the mesosphere, and the time is 2 hours; The polymeric layer that rolling one deck is formed by teflon, through the carbon fiber of rare-earth modifier for treatment and a small amount of lead powder on the bronze powder mesosphere of sintering; thickness is 0.03 millimeter; pressure is 30MPa; then under the nitrogen protection condition; under 380 ℃ of conditions, carry out sintering; modify through machining again, at last through rolling, be welded into composite bearing.

The PTFE composite bearing that the method that loads step by step under employing certain speed on the MPV-20 type friction wear testing machine (load 1700N for the first time, add one-level load every 10min later on, every grade of 1300N) investigation makes is 30 ^#Tribological property under the machinery oil drop lubrication condition, Sliding velocity are 1.00m/s, and wear extent was 5.3mg when final load was 12000N.

Embodiment 3

The weight percentages of components of composite material sliding bearing polymeric layer is: teflon: 95%, and the carbon fiber that rare-earth modifier for treatment is crossed: 4%, lead powder: 1%.

Each weight percentages of components of rare-earth modifier: lanthana 10%; Ethanol 82%; Ethylenediamine tetra-acetic acid (EDTA) 5%; Ammonium chloride 2%; Nitric acid 0.5%; Urea 0.5%.

The composite bearing manufacture process is as follows: at first, carbon fiber is carried out pretreatment, ablated 0.5 hour in 600 ℃ of muffle furnaces, the weight percentage that makes its surface organic matter residual quantity is below 1%.Adopt rare-earth modifier for treatment then, carbon fiber is at room temperature immersed in the modifier, soaked 3 hours, after the filtration, oven dry.Then at steel plate upper berth one deck bronze powder, thickness is 0.25 millimeter, is in the same place with the substrate of steel plate sintering at 800 ℃ of following bronze powders of condition, makes surface of steel plate sintering one deck bronze powder as the mesosphere, and the time is 2 hours; The polymeric layer that rolling one deck is formed by teflon, through the carbon fiber of rare-earth modifier for treatment and a small amount of lead powder on the bronze powder mesosphere of sintering; thickness is 0.02 millimeter; pressure is 30MPa; then under the nitrogen protection condition; under 380 ℃ of conditions, carry out sintering; modify through machining again, at last through rolling, be welded into composite bearing.

Adopting the method (load 1700N for the first time, add one-level load every 10min later on, every grade of 1300N) that loads step by step under the certain speed to record when Sliding velocity is 3.84m/s on the MPV-20 type friction wear testing machine, bearing limiting pv value is 38.7MPam/s.

Claims (2)

1, a kind of preparation method of self-lubricating abrasive sliding bearing from polytef composite material, it is characterized in that at first carbon fiber being carried out pretreatment, in 450～600 ℃ of muffle furnaces, ablated 0.5～1 hour, the weight percentage that makes its surface organic matter residual quantity is below 1%, at room temperature immerse carbon fiber in the rare-earth modifier then, the weight percentages of components of described rare-earth modifier is: rare earth compound 2～10%, ethanol 75～95%, ethylenediamine tetra-acetic acid 1～10%, ammonium chloride 1～5%, nitric acid 0.5～1%, urea 0.5～2%, soak after 2～4 hours, filter, oven dry; At steel plate upper berth one layer thickness is 0.25～0.30 millimeter bronze powder, is in the same place with the substrate of steel plate sintering at 800 ℃ of following copper powders of condition, makes surface of steel plate sintering one deck bronze powder as the mesosphere, and the time is 2 hours; A rolling layer thickness is 0.01～0.03 millimeter a polymeric layer on the bronze powder mesosphere of sintering, pressure is 30MPa, described polymeric layer raw material is formed weight percentage: the carbon fiber 4～25% that teflon 70～95%, rare-earth modifier for treatment are crossed, lead powder 1～5%; Under nitrogen protection, 380 ℃ of conditions, carry out sintering then, modify through machining again, at last through rolling, be welded into composite material self-lubricating plain bearing.

2, according to the preparation method of the self-lubricating abrasive sliding bearing from polytef composite material of claim 1, it is characterized in that described rare earth compound is lanthanum chloride, cerium chloride, lanthana or cerium oxide.