CN106146020A - A kind of fibre reinforced pantograph carbon slide carbon bar - Google Patents

Abstract

The invention provides a kind of fibre reinforced pantograph carbon slide carbon bar, it is made in the following way: by pantograph carbon slide carbon bar raw material and pore creating material mix homogeneously, prepares compound；Described compound is carried out compression process, prepares the just base of the carbon slipper carbon bar containing pore creating material；By described carbon slipper carbon bar just base is carried out calcination process, burn the pore creating material in described carbon slipper carbon bar just base, described carbon slipper carbon bar is formed equally distributed hole, thus obtains the carbon slipper carbon bar with pore structure；The described carbon slipper carbon bar with pore structure is carried out metal impregnation process, prepares the carbon slipper carbon bar with equally distributed metal.The present invention, by adding quantity and the shape of the hole within pore creating material control carbon bar, is allowed to the network structure that the metal of dipping is evenly distributed so that the resistivity of carbon bar is low, and conductive capability is strong, and intensity is high, and service life is long.

Description

A kind of fibre reinforced pantograph carbon slide carbon bar

Technical field

The present invention relates to a kind of fibre reinforced pantograph carbon slide carbon bar, particularly relate to one and have and be uniformly distributed The carbon slipper carbon bar of metal, belong to electric locomotive technical field.

Background technology

Electric locomotive is to obtain electric energy from contact net, the locomotive driven with traction electric machine.Along with electric railway Development, electric locomotive have also been obtained development at full speed, from direct current generator locomotive to AC transmission electric power locomotive.1979 Year, First High-power AC drives locomotive was in Germany's birth, had attracted new era of the development of electric locomotive.For The transport power that acquisition is big, higher speed, the power of electric locomotive is increasing.Chinese Article 1 in 1961 Electrified circuit Baoji is built up to phoenix state line, and the power of electric locomotive, from 4740kw, develops into 6400kw, arrives Present 9600kw.China railways main line uses the contact net power supply mode of 25kv, 50hz.Power is The motor locomotive of 9600kw, the efficiency of electric locomotive AC Drive motor is 80%-85%, needs from contact net Obtaining 480A electric current, if considering further that certain overload capacity, then needing the 1000A electric current obtained.

Electric locomotive is flowed from contact net by pantograph carbon slide, is transmitted on AC Drive motor and locomotive Other electrical equipment, then by grounding carbon brush, be directed to the earth, thus form loop.Pantograph carbon slide carbon Bar has superior wearability, and the abrasion to contact net are the least, has preferable electric conductivity, thus obtains Use widely.But along with the increase of locomotive power, as it was previously stated, the electric current flowed is increasing, pure carbon slipper Can not meet requirement, it would be desirable to be able to carry the material of more high current density, the carbon of the impregnating metal that has thus been born Slide plate.It, by the method for pure carbon carbon bar impregnating metal, reduces its resistivity, improves its electricity allowing carrying Current density.

The carbon slipper of impregnating metal is that holes a large amount of present in carbon bar base material are filled up metal, is formed practical solidifying Body, the hole on conventional carbon bar is all self-assembling formation in carbon bar production process, and these holes are point-like dispersion In carbon bar, thus cause the metal of dipping to be also into point-like and be dispersed in carbon bar, best fall can not be reached The effect of the resistivity of low-carbon (LC) bar.

Summary of the invention

It is an object of the invention to for a difficult problem of the prior art, it is provided that a kind of fibre reinforced pantograph carbon slide Carbon bar, by controlling quantity and the shape of carbon bar internal void, the metal being allowed to dipping is uniformly distributed, and can obtain Obtain lower resistivity, it is allowed to by bigger electric current.

For achieving the above object, the invention provides a kind of fibre reinforced pantograph carbon slide carbon bar, by such as Lower section method is prepared from:

By pantograph carbon slide carbon bar raw material and pore creating material mix homogeneously, prepare compound；

Described compound is carried out compression process, prepares the just base of the carbon slipper carbon bar containing pore creating material；

By described carbon slipper carbon bar just base is carried out calcination process, burn making in described carbon slipper carbon bar just base Hole agent, forms equally distributed hole in described carbon slipper carbon bar, thus the carbon obtaining having pore structure is sliding Plate carbon bar；

The described carbon slipper carbon bar with pore structure is carried out metal impregnation process, prepare have equally distributed The carbon slipper carbon bar of metal.

Wherein, the weight of described pantograph carbon slide carbon bar raw material and pore creating material is: pantograph carbon slide Carbon bar raw material 68-182, pore creating material 1-30.

Particularly, described pantograph carbon slide carbon bar raw material includes: white carbon black, pitch coke, carbon fiber, graphite, Sulfur, Colophonium.

Especially, described white carbon black, pitch coke, carbon fiber, graphite, sulfur, the weight of Colophonium are: White carbon black 5-35, pitch coke 30-60, carbon fiber 3-10, graphite 8-25, sulfur 2-12, Colophonium 20-40.

Particularly, the weight portion of described white carbon black, pitch coke, carbon fiber, graphite, sulfur, Colophonium and pore creating material Proportioning is preferably white carbon black 20-25, pitch coke 35-45, carbon fiber 4-7, graphite 10-20, sulfur 3-10, drip Blue or green 30-35, pore creating material 10-25.

Wherein, described white carbon black is black powder, and granularity is 44-420 μm.

Particularly, the granularity of described pitch coke is 26-350 μm.

Especially, a length of 0.5-5mm of described carbon fiber, carbon fiber light weight, intensity are big, hardness is high, High by its mechanical strength prepared as raw material, rupture strength is big.

Particularly, the granularity of described graphite is 26-150 μm.

Especially, described sulfur is pale yellow powder, granularity 44-150 μm.

Particularly, described Colophonium is pitchy thick liquid, softening point temperature 75 DEG C-90 DEG C.

Carbon fiber be added to increase carbon bar rupture strength, graphite, sulfur be added to increase carbon The self lubricity of bar, Colophonium plays bonding effect.

Wherein, described pore creating material is a diameter of 0.05-0.5mm, the molecular compound of a length of 1-50mm or have Machine thing.

Particularly, described molecular compound is nylon and/or polypropylene.

Especially, described Organic substance is the animal hairs such as bristles, horsehair, ox hair, one or more in cotton thread.

The present invention artificially increases hole by adding pore creating material in carbon bar, controls quantity and the shape of hole, makes The webbed pore network of shape, for follow-up dipping formed net metal lay a solid foundation.

Wherein, described prepared compound includes:

By white carbon black, pitch coke, carbon fiber, graphite, sulfur mix homogeneously, obtain the first compound；

Colophonium is joined in described first mixed material, mix homogeneously, obtain the second compound；

Described second compound is carried out roll process, obtains the 3rd compound of lamellar；

Described sheet material is carried out pulverization process, obtains the 4th compound；

Pore creating material is joined in described 4th compound, mix homogeneously, prepare compound.

Particularly, the process time obtaining the first compound described in is 30-200min.

Wherein, described in obtain the second compound for by described first mixed material heating to 130-210 DEG C, then will melt The Colophonium changed joins in described first mixed material, mix homogeneously.

Especially, the process time obtaining the second compound described in is 30-200min.

Wherein, described second compound is carried out roll process, obtains described 3rd compound and include:

Described second compound carries out roll for the first time process, obtain sheet material；

Described sheet material is carried out pulverization process, obtains comminuting matter；

Described comminuting matter carries out second time roll process, obtain the 3rd compound of lamellar.

Particularly, the treatment temperature that described roll processes is 100-180 DEG C.

Especially, the thickness of described 3rd compound is 1-3mm.

Particularly, the granularity of described 4th compound is 38-420 μm.

After secondary roll pulverization process, it is more uniform that material mixes.

Wherein, described being joined by pore creating material in described 4th compound, prepared compound includes:

Pore creating material is joined in described 4th compound, be uniformly mixed in a heated condition, glued The compound of thick shape.

Particularly, described pore creating material is joined in described 4th compound prepare compound treatment temperature be 80-180℃。

Especially, described pore creating material is joined in described 4th compound prepare compound time be 30-100min。

Wherein, described compression process includes:

Described compound is carried out precompressed process, obtains precompressed carbon cylinder；

Described precompressed carbon cylinder is carried out hot-pressing processing, prepares carbon slipper carbon bar just base.

Particularly, the temperature that described precompressed processes is 50-100 DEG C, and the time is 0.1-3s.

Especially, the pressure that described precompressed processes is 4-8MPa.

Particularly, the temperature of described hot-pressing processing is 50-150 DEG C.

Especially, the pressure of described hot-pressing processing is 1-10MPa.

Particularly, the just base of the carbon slipper carbon bar after described hot-pressing processing being cooled to room temperature, described cool time is 2-4h。

Wherein, the temperature of described calcination process is 800-1300 DEG C, and the process time is 150-400h.

Especially, described carbon slipper carbon bar just base is placed in roaster, by in-furnace temperature in 100-120h It is promoted to 800-1300 DEG C, and is incubated 50-300h at this temperature.

After calcination process, the pore creating material in carbon slipper carbon bar is at high temperature decomposed, and defines and has uniformly The carbon slipper carbon bar of pore structure.

Wherein, described metal impregnation processes and includes:

By copper powder, glass putty, Hydrocerussitum (Ceruse), magnesium powder, aluminium powder, sodium powder and silica flour mix homogeneously, add heat fusing, system Obtain metal impregnation liquid；

By being immersed in described metal impregnation liquid by the described carbon slipper carbon bar with pore structure, make metal There is described in Chong Maning the hole of the carbon slipper carbon bar of pore structure, prepare the carbon slipper with equally distributed metal Carbon bar.

Particularly, the proportioning of described metal impregnation liquid is: copper powder 90-98%, glass putty 0.5-3%, Hydrocerussitum (Ceruse) 0.5-4%, Magnesium powder 0.2-1%, aluminium powder 0.5-1%, sodium powder 0.1-0.5%, silica flour 0.1-1%.

Especially, described utilize described metal impregnation liquid that the described carbon slipper carbon bar with pore structure is carried out gold Belong to impregnation process to include:

First the described carbon slipper carbon bar with pore structure is dried 1-3h at 200-400 DEG C；

Then the carbon slipper carbon bar with pore structure after drying is placed in sealing impregnating autoclave, by impregnating autoclave Evacuation, when vacuum reaches-0.1MPa, injects metal impregnation liquid in impregnating autoclave, and vacuum impregnation processes 2-10min；Repressurization, to 50-100Mpa, impregnates 20-40min；

Finally the carbon slipper carbon bar that impregnated of metal is taken out from impregnating autoclave, be placed in nitrogen cooling, obtain There is the carbon slipper carbon bar of equally distributed metal.

Before impregnation process, the heating of carbon slipper carbon bar is conducive to being made the hole swell of slide plate carbon bar by high temperature, And the rarefaction of air in the hole made, under conditions of vacuum and pressurization, it is more beneficial for molten metal and is impregnated into hole In, form equally distributed network structure.

Advantages of the present invention and Advantageous Effects are as follows:

1, the fibre reinforced pantograph carbon slide carbon bar of the present invention controls within carbon bar by adding pore creating material The quantity of hole and shape, be allowed to the network structure that the metal of dipping is evenly distributed so that the resistivity of carbon bar Low, conductive capability is strong.

2, the fibre reinforced pantograph carbon slide carbon bar of the present invention controls within carbon bar by adding pore creating material The quantity of hole and shape, be allowed to the network structure that is evenly distributed of metal of dipping, more can gather material with carbon element and The respective advantage of metal material so that the intensity of carbon bar is higher, increases service life.

3, the fibre reinforced pantograph carbon slide carbon bar porosity of the present invention is high, up to 10%-38%；Resistance Rate is low, and conductive capability is strong, the pantograph carbon slide carbon bar fall of resistivity≤5 μ Ω m, less impregnating metal Low 85.7-98.5%；And Rockwell hardness, rupture strength and impact flexibility are all significantly increased, anti-wear performance is good； Coefficient of friction is low, and greasy property is good.

4, the preparation technology of the fibre reinforced pantograph carbon slide carbon bar of the present invention is simple, it is not necessary to use spy Different equipment, low cost, it is especially suitable for large-scale industrial production.

Detailed description of the invention

Further describe the present invention, advantages of the present invention and feature below in conjunction with specific embodiment to will be with retouching State and apparent.But these embodiments are only exemplary, the scope of the present invention is not constituted any restriction. It will be understood by those skilled in the art that can be to skill of the present invention under without departing from the spirit and scope of the present invention The details of art scheme and form are modified or replace, but these amendments and replacement each fall within the protection model of the present invention In enclosing.

Embodiment 1

1, raw material is prepared according to following weight

2, raw material mixing

(1) it is stirred in white carbon black, pitch coke, carbon fiber, graphite, sulfur being joined blender 30min, mix homogeneously, obtain the first compound；

(2) by the first mixed material heating to 130 DEG C, then the Colophonium of fusing is joined in the first mixed material, Stir process 200min, mix homogeneously, obtain the second compound；

(3) the second compound is placed in roller mill carries out for the first time roll and process, obtain sheet material；Will Sheet material is placed in pulverizer and carries out pulverization process, obtains comminuting matter；Comminuting matter is placed in roller mill Carry out second time roll to process, obtain lamellar the 3rd compound that thickness is 1-3mm；The wherein place of roller mill Reason temperature is 100 DEG C；

(4) being placed in pulverizer by the 3rd compound and carry out pulverization process, obtaining granularity is 38-420 μm 4th compound；

(5) being joined by pore creating material in the 4th compound, at 80 DEG C, stirring mixing 100min, obtains thickness The compound of shape.

3, compression process

(1) thick compound is joined vertical hydraulic press carries out precompressed process, obtain precompressed carbon circle Post；Wherein, the pressure of precompressed is 4Mpa, and treatment temperature is 100 DEG C, and the time of precompressed is 3s；

(2) precompressed carbon slipper carbon bar is preheated to 70 DEG C, is subsequently placed in horizontal hydraulic machine and carries out hot-pressing processing, Make carbon slipper carbon bar just base；Wherein, the pressure of described hot-pressing processing is 10Mpa；

8) being taken out by the just base of the carbon slipper carbon bar after hot-pressing processing, ambient temperatare is put 3h, is made at the beginning of carbon slipper Base cooling, sizing.

4, calcination process

Carbon slipper carbon bar just base is placed in roaster, in 100h, in-furnace temperature is promoted to 800 DEG C, and It is incubated 50h at this temperature, obtains the carbon slipper carbon bar with pore structure.

5, impregnation process

(1) get the raw materials ready according to following proportioning: copper powder 90%, glass putty 3%, Hydrocerussitum (Ceruse) 4%, magnesium powder 1%, aluminium powder 1%, sodium powder 0.5%, silica flour 0.5%；

(2) after copper powder, glass putty, Hydrocerussitum (Ceruse), magnesium powder, aluminium powder, sodium powder and silica flour mix homogeneously, crucible is poured into In be heated to 1000 DEG C, make metal molten, obtain metal impregnation liquid；

(3) the carbon slipper carbon bar with pore structure is put in baking oven, at 200 DEG C, dry 3h；

(4) the carbon slipper carbon bar after drying is placed in sealing impregnating autoclave, by impregnating autoclave evacuation, works as vacuum When degree reaches-0.1MPa, injecting metal impregnation liquid in impregnating autoclave, vacuum impregnation processes 8min；Repressurization is extremely 50Mpa, impregnates 40min；

(5) the carbon slipper carbon bar that impregnated of metal is taken out from impregnating autoclave, be placed in nitrogen cooling, obtain There is the carbon slipper carbon bar of equally distributed metal.

6, performance test

The carbon slipper carbon bar carried out before and after metal impregnation process is carried out performance test respectively, and test result is shown in Table 1 With table 2.

Embodiment 2

1, raw material is prepared according to following weight

2, raw material mixing

(1) it is stirred in white carbon black, pitch coke, carbon fiber, graphite, sulfur being joined blender 200min, mix homogeneously, obtain the first compound；

(2) by the first mixed material heating to 210 DEG C, then the Colophonium of fusing is joined in the first mixed material, Stir process 30min, mix homogeneously, obtain the second compound；

(3) the second compound is placed in roller mill carries out for the first time roll and process, obtain sheet material；Will Sheet material is placed in pulverizer and carries out pulverization process, obtains comminuting matter；Comminuting matter is placed in roller mill Carry out second time roll to process, obtain lamellar the 3rd compound that thickness is 1-3mm；The wherein place of roller mill Reason temperature is 180 DEG C；

(4) being placed in pulverizer by the 3rd compound and carry out pulverization process, obtaining granularity is 38-420 μm 4th compound；

(5) being joined by pore creating material in the 4th compound, at 180 DEG C, stirring mixing 30min, obtains thickness The compound of shape.

3, compression process

(1) thick compound is joined vertical hydraulic press carries out precompressed process, obtain precompressed carbon circle Post；Wherein, the pressure of precompressed is 8Mpa, and treatment temperature is 50 DEG C, and the time of precompressed is 1s；

(2) precompressed carbon slipper carbon bar is preheated to 50 DEG C, is subsequently placed in horizontal hydraulic machine and carries out hot-pressing processing, Make carbon slipper carbon bar just base；Wherein, the pressure of described hot-pressing processing is 8Mpa；

8) being taken out by the just base of the carbon slipper carbon bar after hot-pressing processing, ambient temperatare is put 2h, is made at the beginning of carbon slipper Base cooling, sizing.

4, calcination process

Carbon slipper carbon bar just base is placed in roaster, in 110h, in-furnace temperature is promoted to 1000 DEG C, and It is incubated 300h at this temperature, obtains the carbon slipper carbon bar with pore structure.

5, impregnation process

(1) get the raw materials ready according to following proportioning: copper powder 98%, glass putty 0.5%, Hydrocerussitum (Ceruse) 0.5%, magnesium powder 0.2%, Aluminium powder 0.4%, sodium powder 0.3%, silica flour 0.1%；

(2) after copper powder, glass putty, Hydrocerussitum (Ceruse), magnesium powder, aluminium powder, sodium powder and silica flour mix homogeneously, crucible is poured into In be heated to 1050 DEG C, make metal molten, obtain metal impregnation liquid；

(3) the carbon slipper carbon bar with pore structure is put in baking oven, at 400 DEG C, dry 1h；

(4) the carbon slipper carbon bar after drying is placed in sealing impregnating autoclave, by impregnating autoclave evacuation, works as vacuum When degree reaches-0.1MPa, injecting metal impregnation liquid in impregnating autoclave, vacuum impregnation processes 2min；Repressurization is extremely 70Mpa, impregnates 35min；

(5) the carbon slipper carbon bar that impregnated of metal is taken out from impregnating autoclave, be placed in nitrogen cooling, obtain There is the carbon slipper carbon bar of equally distributed metal.

6, performance test

The carbon slipper carbon bar carried out before and after metal impregnation process is carried out performance test respectively, and test result is shown in Table 1 With table 2.

Embodiment 3

1, raw material is prepared according to following weight

2, raw material mixing

(1) it is stirred in white carbon black, pitch coke, carbon fiber, graphite, sulfur being joined blender 60min, mix homogeneously, obtain the first compound；

(2) by the first mixed material heating to 145 DEG C, then the Colophonium of fusing is joined in the first mixed material, Stir process 90min, mix homogeneously, obtain the second compound；

(3) the second compound is placed in roller mill carries out for the first time roll and process, obtain sheet material；Will Sheet material is placed in pulverizer and carries out pulverization process, obtains comminuting matter；Comminuting matter is placed in roller mill Carry out second time roll to process, obtain lamellar the 3rd compound that thickness is 1-3mm；The wherein place of roller mill Reason temperature is 110 DEG C；

(4) being placed in pulverizer by the 3rd compound and carry out pulverization process, obtaining granularity is 38-420 μm 4th compound；

(5) being joined by pore creating material in the 4th compound, at 160 DEG C, stirring mixing 45min, obtains thickness The compound of shape.

3, compression process

(1) thick compound is joined vertical hydraulic press carries out precompressed process, obtain precompressed carbon circle Post；Wherein, the pressure of precompressed is 5Mpa, and treatment temperature is 80 DEG C, and the time of precompressed is 0.1s；

(2) precompressed carbon slipper carbon bar is preheated to 150 DEG C, is subsequently placed in horizontal hydraulic machine and carries out hot-pressing processing, Make carbon slipper carbon bar just base；Wherein, the pressure of described hot-pressing processing is 1Mpa；

8) being taken out by the just base of the carbon slipper carbon bar after hot-pressing processing, ambient temperatare is put 4h, is made at the beginning of carbon slipper Base cooling, sizing.

4, calcination process

Carbon slipper carbon bar just base is placed in roaster, in 120h, in-furnace temperature is promoted to 1300 DEG C, and It is incubated 250h at this temperature, obtains the carbon slipper carbon bar with pore structure.

5, impregnation process

(1) get the raw materials ready according to following proportioning: copper powder 93%, glass putty 2%, Hydrocerussitum (Ceruse) 3%, magnesium powder 0.4%, aluminium powder 0.6%, sodium powder 0.4%, silica flour 0.6%；

(2) after copper powder, glass putty, Hydrocerussitum (Ceruse), magnesium powder, aluminium powder, sodium powder and silica flour mix homogeneously, crucible is poured into In be heated to 1200 DEG C, make metal molten, obtain metal impregnation liquid；

(3) the carbon slipper carbon bar with pore structure is put in baking oven, at 250 DEG C, dry 2.5h；

(4) the carbon slipper carbon bar after drying is placed in sealing impregnating autoclave, by impregnating autoclave evacuation, works as vacuum When degree reaches-0.1MPa, injecting metal impregnation liquid in impregnating autoclave, vacuum impregnation processes 10min；Repressurization To 80Mpa, impregnate 30min；

(5) the carbon slipper carbon bar that impregnated of metal is taken out from impregnating autoclave, be placed in nitrogen cooling, obtain There is the carbon slipper carbon bar of equally distributed metal.

6, performance test

The carbon slipper carbon bar carried out before and after metal impregnation process is carried out performance test respectively, and test result is shown in Table 1 With table 2.

Embodiment 4

1, raw material is prepared according to following weight

2, raw material mixing

(1) it is stirred in white carbon black, pitch coke, carbon fiber, graphite, sulfur being joined blender 120min, mix homogeneously, obtain the first compound；

(2) by the first mixed material heating to 160 DEG C, then the Colophonium of fusing is joined in the first mixed material, Stir process 150min, mix homogeneously, obtain the second compound；

(3) the second compound is placed in roller mill carries out for the first time roll and process, obtain sheet material；Will Sheet material is placed in pulverizer and carries out pulverization process, obtains comminuting matter；Comminuting matter is placed in roller mill Carry out second time roll to process, obtain lamellar the 3rd compound that thickness is 1-3mm；The wherein place of roller mill Reason temperature is 130 DEG C；

(4) being placed in pulverizer by the 3rd compound and carry out pulverization process, obtaining granularity is 38-420 μm 4th compound；

(5) being joined by pore creating material in the 4th compound, at 100 DEG C, stirring mixing 80min, obtains thickness The compound of shape.

3, compression process

(1) thick compound is joined vertical hydraulic press carries out precompressed process, obtain precompressed carbon circle Post；Wherein, the pressure of precompressed is 6Mpa, and treatment temperature is 90 DEG C, and the time of precompressed is 1.5s；

(2) precompressed carbon slipper carbon bar is preheated to 90 DEG C, is subsequently placed in horizontal hydraulic machine and carries out hot-pressing processing, Make carbon slipper carbon bar just base；Wherein, the pressure of described hot-pressing processing is 4Mpa；

8) being taken out by the just base of the carbon slipper carbon bar after hot-pressing processing, ambient temperatare is put 2.5h, is made carbon slipper Just base cooling, sizing.

4, calcination process

Carbon slipper carbon bar just base is placed in roaster, in 105h, in-furnace temperature is promoted to 900 DEG C, and It is incubated 200h at this temperature, obtains the carbon slipper carbon bar with pore structure.

5, impregnation process

(1) get the raw materials ready according to following proportioning: copper powder 94%, glass putty 2.5%, Hydrocerussitum (Ceruse) 2%, magnesium powder 0.6%, aluminum Powder 0.5%, sodium powder 0.1%, silica flour 0.3%；

(2) after copper powder, glass putty, Hydrocerussitum (Ceruse), magnesium powder, aluminium powder, sodium powder and silica flour mix homogeneously, crucible is poured into In be heated to 1100 DEG C, make metal molten, obtain metal impregnation liquid；

(3) the carbon slipper carbon bar with pore structure is put in baking oven, at 300 DEG C, dry 2h；

(4) the carbon slipper carbon bar after drying is placed in sealing impregnating autoclave, by impregnating autoclave evacuation, works as vacuum When degree reaches-0.1MPa, injecting metal impregnation liquid in impregnating autoclave, vacuum impregnation processes 4min；Repressurization is extremely 60Mpa, impregnates 38min；

(5) the carbon slipper carbon bar that impregnated of metal is taken out from impregnating autoclave, be placed in nitrogen cooling, obtain There is the carbon slipper carbon bar of equally distributed metal.

6, performance test

The carbon slipper carbon bar carried out before and after metal impregnation process is carried out performance test respectively, and test result is shown in Table 1 With table 2.

Embodiment 5

1, raw material is prepared according to following weight

2, raw material mixing

(1) it is stirred in white carbon black, pitch coke, carbon fiber, graphite, sulfur being joined blender 150min, mix homogeneously, obtain the first compound；

(2) by the first mixed material heating to 175 DEG C, then the Colophonium of fusing is joined in the first mixed material, Stir process 120min, mix homogeneously, obtain the second compound；

(3) the second compound is placed in roller mill carries out for the first time roll and process, obtain sheet material；Will Sheet material is placed in pulverizer and carries out pulverization process, obtains comminuting matter；Comminuting matter is placed in roller mill Carry out second time roll to process, obtain lamellar the 3rd compound that thickness is 1-3mm；The wherein place of roller mill Reason temperature is 150 DEG C；

(4) being placed in pulverizer by the 3rd compound and carry out pulverization process, obtaining granularity is 38-420 μm 4th compound；

(5) being joined by pore creating material in the 4th compound, at 120 DEG C, stirring mixing 60min, obtains thickness The compound of shape.

3, compression process

(1) thick compound is joined vertical hydraulic press carries out precompressed process, obtain precompressed carbon circle Post；Wherein, the pressure of precompressed is 7Mpa, and treatment temperature is 60 DEG C, and the time of precompressed is 2s；

(2) precompressed carbon slipper carbon bar is preheated to 110 DEG C, is subsequently placed in horizontal hydraulic machine and carries out hot-pressing processing, Make carbon slipper carbon bar just base；Wherein, the pressure of described hot-pressing processing is 6Mpa；

8) being taken out by the just base of the carbon slipper carbon bar after hot-pressing processing, ambient temperatare is put 3.5h, is made carbon slipper Just base cooling, sizing.

4, calcination process

Carbon slipper carbon bar just base is placed in roaster, in 115h, in-furnace temperature is promoted to 1200 DEG C, and It is incubated 150h at this temperature, obtains the carbon slipper carbon bar with pore structure.

5, impregnation process

(1) get the raw materials ready according to following proportioning: copper powder 95%, glass putty 1.5%, Hydrocerussitum (Ceruse) 1%, magnesium powder 0.5%, aluminum Powder 0.8%, sodium powder 0.2%, silica flour 1%；

(2) after copper powder, glass putty, Hydrocerussitum (Ceruse), magnesium powder, aluminium powder, sodium powder and silica flour mix homogeneously, crucible is poured into In be heated to 1150 DEG C, make metal molten, obtain metal impregnation liquid；

(3) the carbon slipper carbon bar with pore structure is put in baking oven, at 350 DEG C, dry 1.5h；

(4) the carbon slipper carbon bar after drying is placed in sealing impregnating autoclave, by impregnating autoclave evacuation, works as vacuum When degree reaches-0.1MPa, injecting metal impregnation liquid in impregnating autoclave, vacuum impregnation processes 6min；Repressurization is extremely 90Mpa, impregnates 25min；

(5) the carbon slipper carbon bar that impregnated of metal is taken out from impregnating autoclave, be placed in nitrogen cooling, obtain There is the carbon slipper carbon bar of equally distributed metal.

6, performance test

The carbon slipper carbon bar carried out before and after metal impregnation process is carried out performance test respectively, and test result is shown in Table 1 With table 2.

Embodiment 6

1, raw material is prepared according to following weight

2, raw material mixing

(1) it is stirred in white carbon black, pitch coke, carbon fiber, graphite, sulfur being joined blender 90min, mix homogeneously, obtain the first compound；

(2) by the first mixed material heating to 190 DEG C, then the Colophonium of fusing is joined in the first mixed material, Stir process 60min, mix homogeneously, obtain the second compound；

(3) the second compound is placed in roller mill carries out for the first time roll and process, obtain sheet material；Will Sheet material is placed in pulverizer and carries out pulverization process, obtains comminuting matter；Comminuting matter is placed in roller mill Carry out second time roll to process, obtain lamellar the 3rd compound that thickness is 1-3mm；The wherein place of roller mill Reason temperature is 160 DEG C；

(4) being placed in pulverizer by the 3rd compound and carry out pulverization process, obtaining granularity is 38-420 μm 4th compound；

(5) being joined by pore creating material in the 4th compound, at 140 DEG C, stirring mixing 70min, obtains thickness The compound of shape.

3, compression process

(1) thick compound is joined vertical hydraulic press carries out precompressed process, obtain precompressed carbon circle Post；Wherein, the pressure of precompressed is 5.5Mpa, and treatment temperature is 70 DEG C, and the time of precompressed is 2.5s；

(2) precompressed carbon slipper carbon bar is preheated to 130 DEG C, is subsequently placed in horizontal hydraulic machine and carries out hot-pressing processing, Make carbon slipper carbon bar just base；Wherein, the pressure of described hot-pressing processing is 2Mpa；

8) being taken out by the just base of the carbon slipper carbon bar after hot-pressing processing, ambient temperatare is put 3h, is made at the beginning of carbon slipper Base cooling, sizing.

4, calcination process

Carbon slipper carbon bar just base is placed in roaster, in 112h, in-furnace temperature is promoted to 1100 DEG C, and It is incubated 100h at this temperature, obtains the carbon slipper carbon bar with pore structure.

5, impregnation process

(1) get the raw materials ready according to following proportioning: copper powder 96%, glass putty 1%, Hydrocerussitum (Ceruse) 1.5%, magnesium powder 0.8%, aluminum Powder 0.4%, sodium powder 0.15%, silica flour 0.15%；

(2) after copper powder, glass putty, Hydrocerussitum (Ceruse), magnesium powder, aluminium powder, sodium powder and silica flour mix homogeneously, crucible is poured into In be heated to 1120 DEG C, make metal molten, obtain metal impregnation liquid；

(3) the carbon slipper carbon bar with pore structure is put in baking oven, at 380 DEG C, dry 1.2h；

(4) the carbon slipper carbon bar after drying is placed in sealing impregnating autoclave, by impregnating autoclave evacuation, works as vacuum When degree reaches-0.1MPa, injecting metal impregnation liquid in impregnating autoclave, vacuum impregnation processes 7min；Repressurization is extremely 100Mpa, impregnates 20min；

(5) the carbon slipper carbon bar that impregnated of metal is taken out from impregnating autoclave, be placed in nitrogen cooling, obtain There is the carbon slipper carbon bar of equally distributed metal.

6, performance test

The carbon slipper carbon bar carried out before and after metal impregnation process is carried out performance test respectively, and test result is shown in Table 1 With table 2.

Properties of product testing result before table 1 impregnating metal

Properties of product testing result after table 2 impregnating metal

From Tables 1 and 2 data it can be seen that fibre reinforced pantograph carbon slide carbon bar of the present invention is by adding Pore creating material controls quantity and the shape of the hole within carbon bar, and pore-creating is effective, and porosity reaches 10%-38%； After metal impregnation processes, owing to containing equally distributed metal structure, less impregnating in carbon slipper carbon bar The carbon slipper carbon bar of metal is compared, and the resistivity of carbon bar is substantially reduced, resistivity≤5 μ Ω m, reduces 85.7-98.5%, bulk density increases, and Rockwell hardness strengthens, and rupture strength improves and impact flexibility all has substantially Improve.

Claims (10)

1. a fibre reinforced pantograph carbon slide carbon bar, it is characterised in that be prepared via a method which and Become:

By pantograph carbon slide carbon bar raw material and pore creating material mix homogeneously, prepare compound；

Described compound is carried out compression process, prepares the just base of the carbon slipper carbon bar containing pore creating material；

By described carbon slipper carbon bar just base is carried out calcination process, burn making in described carbon slipper carbon bar just base Hole agent, forms equally distributed hole in described carbon slipper carbon bar, thus the carbon obtaining having pore structure is sliding Plate carbon bar；

The described carbon slipper carbon bar with pore structure is carried out metal impregnation process, prepare have equally distributed The carbon slipper carbon bar of metal.

2. fibre reinforced pantograph carbon slide carbon bar as claimed in claim 1, it is characterised in that described The weight of pantograph carbon slide carbon bar raw material and pore creating material is: pantograph carbon slide carbon bar raw material 68-182, pore creating material 1-30.

3. fibre reinforced pantograph carbon slide carbon bar as claimed in claim 2, it is characterised in that described Pantograph carbon slide carbon bar raw material includes: white carbon black, pitch coke, carbon fiber, graphite, sulfur, Colophonium, it is heavy Amount part proportioning be: white carbon black 5-35, pitch coke 30-60, carbon fiber 3-10, graphite 8-25, sulfur 2-12, Colophonium 20-40.

4. fibre reinforced pantograph carbon slide carbon bar as claimed in claim 2, it is characterised in that described Pore creating material is a diameter of 0.05-0.5mm, the molecular compound of a length of 1-50mm or Organic substance.

5. fibre reinforced pantograph carbon slide carbon bar as claimed in claim 4, it is characterised in that described Molecular compound is nylon and/or polypropylene.

6. fibre reinforced pantograph carbon slide carbon bar as claimed in claim 4, it is characterised in that described Organic substance is the animal hairs such as bristles, horsehair, ox hair, one or more in cotton thread.

7. the fibre reinforced pantograph carbon slide carbon bar described in claim 1, it is characterised in that described system Obtain compound to include:

By white carbon black, pitch coke, carbon fiber, graphite, sulfur mix homogeneously, obtain the first compound；

The Colophonium of fusing is joined in described first mixed material, mix homogeneously, obtain the second compound；

Described second compound is carried out roll process, obtains the 3rd compound of lamellar；

Described sheet material is carried out pulverization process, obtains the 4th compound；

Pore creating material is joined in described 4th compound, mix homogeneously, prepare compound.

8. fibre reinforced pantograph carbon slide carbon bar as claimed in claim 1, it is characterised in that described The temperature of calcination process is 800-1300 DEG C, and the process time is 150-400h.

9. fibre reinforced pantograph carbon slide carbon bar as claimed in claim 1, it is characterised in that described Metal impregnation processes and includes:

By copper powder, glass putty, Hydrocerussitum (Ceruse), magnesium powder, aluminium powder, sodium powder and silica flour mix homogeneously, add heat fusing, prepare Metal impregnation liquid；

By being immersed in described metal impregnation liquid by the described carbon slipper carbon bar with pore structure, metal is made to fill There is described in Man the hole of the carbon slipper carbon bar of pore structure, prepare the carbon slipper carbon with equally distributed metal Bar.

10. fibre reinforced pantograph carbon slide carbon bar as claimed in claim 9, it is characterised in that described The proportioning of metal impregnation liquid is: copper powder 90-98%, glass putty 0.5-3%, Hydrocerussitum (Ceruse) 0.5-4%, magnesium powder 0.2-1%, Aluminium powder 0.5-1%, sodium powder 0.1-0.5%, silica flour 0.1-1%.