CN1239150A - Titanium carbide reinforced antiwear aluminium alloy and its preparing process - Google Patents
Titanium carbide reinforced antiwear aluminium alloy and its preparing process Download PDFInfo
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- CN1239150A CN1239150A CN 99114272 CN99114272A CN1239150A CN 1239150 A CN1239150 A CN 1239150A CN 99114272 CN99114272 CN 99114272 CN 99114272 A CN99114272 A CN 99114272A CN 1239150 A CN1239150 A CN 1239150A
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Abstract
A titanium carbide reinforced antiwear aluminium alloy is prepared from base alloy and TiC (1-15 wt.%) through preparing interally and making blank or ingot. Said base alloy contains Al (0.1-8.0 wt.%), Cu (0.2-3.0), Mg (0.2-4.0), Si (0.2-2.0), Mn (0.01-1.0), Zr (0.01-1.0)Ce. Said interally is prepared by fusion-cast process or thermal explosion synthesis. Its advantages include excellent comprehensive mechanical performance and machining nature and high antiwear effect. The mechanical parts made up of it have long service life and low cost.
Description
The present invention relates to a kind of wear-resistant alloy material, particularly a kind of is the matrix material of matrix with polynary aluminium alloy.
The face of abrasion-resistant material is very wide, and kind is also a lot, multiple bearing alloy such as, tinbase aluminium base as just having in the bush material, zinc-base, lead base and copper base.These dissimilar high-abrasive materials are applicable to the different operating conditions and environment.Often all adopt wear-resistant copper alloy (tinbronze, xantal and wear resistant brass etc.) as starting material for some parts easy to wear higher in Industrial products or the equipment (bearing shell big as worm gear, lining, ring gear and load-bearing, that rotating speed is higher etc.) to intensity and accuracy requirement.Though the copper based wear-resistant alloy has years of development history, and has formed complete series.But the cost of copper alloy is higher, and alloy casting processing performances such as tinbronze, xantal are not fine.Particularly under some relatively harsher working conditions, their work-ing life neither be very desirable.
The objective of the invention is to provide a kind of abrasion-resistant material of high-performance and low-cost, the alternative copper based wear-resistant alloy of this material is used for the abrasion piece on Industrial products such as machinery, automobile and electrical equipment and the equipment, with work-ing life of improving part and reduce its cost.
Abrasion-resistant material of the present invention is to be matrix with polynary aluminium alloy, is the matrix material that strengthens body with the titanium carbide granule.The particular content of invention is:
One. the one-tenth distribution power of wear-resistant material of the present invention is:
The wt%TiC of matrix alloy+(1.0-15.0),
Wherein the composition of matrix alloy is: Cu:0.1~8.0wt%
Mg:0.2~3.0wt%
Si:0.2~4.0wt%
Mn:0.2~2.0wt%
Zr:0.01~1.0wt%
Ce:0.01~1.0wt%
Al: surplus.The TiC in the above-mentioned alloy formula and the effect of each element are respectively: TiC:TiC is a main component constituent element among the present invention, and its effect is abrasion resistance properties and high temperature (<350 ℃) intensity that improves material.Cu:Cu plays strengthening effect in material, its adding can increase substantially the intensity of material.The adding of Mn:Mn can improve the corrosion resistance nature and the impelling strength of material, and can eliminate the deleterious effect of some impurity element in the alloy.Mg and Si: the effect of these two elements is to form wear-resisting Mg mutually in alloy
2Si, and the tissue of refinement material.The effect of Zr:Zr is the tissue of refinement ingot casting, and improves the process industrial art performance of material.Ce: add in the material that rare earth element ce can degas, decon in melting and castingprocesses, improve ingot quality.
In addition, add intensity and abrasion resistance properties that some Zn can improve material in right amount, in above-mentioned body material, can add 0.5~5.0% Zn.
Two. the material of this invention can be used following prepared:
1. preparation master alloy.Before preparation material of the present invention, must prepare master alloy earlier.The method for preparing master alloy has two kinds:
A. fusion casting, its processing step is as follows: earlier with aluminium powder (10-30%), titanium valve (56-72%) and carbon dust (14-18%) with the mechanical means mixing, be compacted into bulk (to call powder agglomates in the following text) then.Secondly, adding fine aluminium or alloy aluminium block and energising in an induction furnace heats up.Treat that aluminium block fusing back adds the powder agglomates of 10-30%, and stir.After dissolving in aluminium liquid fully Deng powder agglomates, aluminium liquid is poured in the mold.After the mold cooling, ingot casting is taken out, promptly obtain master alloy.
B. thermal explosion synthesis method, its processing step is as follows: after aluminium powder (30-60%), titanium valve (32-56%) and carbon dust (8-14%) are mixed with mechanical means, be compacted into piece.Then such powder agglomates is put into the plumbago crucible of high frequency furnace, with the method for high-frequency induction crucible is quickly heated up to the thermal explosion reaction takes place in the crucible, form required master alloy.
2. the preparation of the blank of material. the blank of material of the present invention can prepare with ordinary method, promptly earlier with crucible oven or induction furnace melting aluminum matrix alloy, adds a certain amount of master alloy according to component prescription then.After master alloy dissolves fully, pourable one-tenth blank or ingot casting.
3. the hot-work of material.The ingot casting made from aforesaid method can become plate, rod, pipe or complex-shaped part with processes such as hot rolling, forge hot or hot extrusions, and concrete heat processing technique is same as the heat processing technique of general aluminium alloy.In addition, can also further improve the intensity and the abrasion resistance properties of material by the method for thermal treatment (timeliness), the thermal treatment process of process of thermal treatment method and conventional wrought aluminium alloy is similar.
This novel material has following performance characteristics: 1. wear-resistant, under various test conditionss, its abrasion resistance properties is much better than the copper based wear-resistant alloy; 2. processing performance is good, and production cost and general wrought aluminium alloy do not have marked difference; 3. the adjustability of performance promptly can be adjusted composition according to service requirements, forms the material of different performance (intensity, hardness, plasticity and abrasion resistance properties); 4. thermal expansivity is little, and dimensional stability is good; 5. intensity height, in the temperature range of room temperature to 300 ℃, its intensity is higher than general wrought aluminium alloy.This novel material is if substitute the starting material (as automotive synchronizing ring) of at present industrial the most frequently used copper based wear-resistant alloy (tinbronze, xantal and wear resistant brass) as bearing shell, lining and other abrasion piece, not only part life can be prolonged significantly, and cost of parts can be significantly reduced.
For the performance characteristics of material that this invention is described, listed the performance index of some materials in each following table:
Listed the composition of five kinds of alloys in the table 1, they are all within the composition range of the present invention's regulation.
Listed the mechanical property of these five kinds of alloys in the table 2, as seen from the table, changed the content of element in the alloy, the mechanical property of alloy has been changed in the larger context, to adapt to different service requirementss.This is crucial for wearing parts (as bearing shell, lining or ring gear etc.), because the wearing parts that is used under the different condition often needs different hardness, intensity or other performance index.
Listed the abrasion loss of these measured on the M200 wear testing machine five kinds of alloys in the table 3.For the ease of relatively, also listed the abrasion loss of wear resistant brass (Cu-31Zn-3Al-3Mn-0.7Si) under condition of equivalent that is used for automotive synchronizing ring in the table.Test conditions is: 1. fastness adopts the GCr15 steel, and 2. lubricating condition is oil lubrication, and 3. rotating speed is 40 rev/mins, and 4. test period is 30 minutes, and 5. load is respectively 15kg and 40kg.The abrasion resistance properties of various materials of the present invention all is much better than wear resistant brass as seen from the table.
Fig. 1 is the metallographic structure of material ingot casting of the present invention, as seen from the figure the uniform distribution of TiC particle in ingot casting.
Fig. 2 is the metallographic structure of material of the present invention after hot rolling.Contrast as seen with Fig. 1, the tissue of material obtains further refinement after hot rolling.
Fig. 3 and Fig. 4 are different materials of the present invention and the wear curve of wear resistant brass when load is respectively 40kg and 15kg, and ordinate zou is an abrasion loss among the figure, and X-coordinate is the time of wearing test.Visible under two kinds of different load from scheming, the time of material break-in of the present invention (entering the stable state wearing and tearing) is all than wear resistant brass much shorter, and abrasion loss is also much smaller than wear resistant brass.
The chemical ingredients of the typical material of several alloys of table 1 (wt%)
| Alloy number | ?Al | ?Cu | ?Mg | ?Si | ?Mn | ?Zr | ?Ce | ?TiC | ???Zn |
| ????1 ????2 ????3 ????4 ????5 | ?88.4 ?90.59 ?92.59 ?85.39 ?85.4 | ?4.4 ?2.2 ?0.4 ?4.4 ?4.4 | ?0.6 ?0.6 ?0.6 ?0.6 ?0.6 | ?1.2 ?1.2 ?1.2 ?1.2 ?1.2 | ?0.8 ?0.8 ?0.6 ?0.8 ?0.8 | ?0.1 ?0.1 ?0.1 ?0.1 ?0.1 | ?0.01 ?0.01 ?0.01 ?0.01 ?0.01 | ?5.0 ?5.0 ?5.0 ?8.0 ?8.0 | ???0 ???0 ???0 ???0 ???3 |
The room-temperature mechanical property of several typical materials of table 2
| Alloy number | Tensile strength MPa | Yield strength MPa | Unit elongation % |
| ????1 ????2 ????3 ????4 ????5 | ????410 ????360 ????298 ????407 ????441 | ????380 ????315 ????248 ????393 ????418 | ?????6.7 ?????8.7 ?????10.6 ?????5.8 ?????3.9 |
Several typical materials of table 3 wear volume (mm behind the 20min that under different loads, weares and teares
3)
| Alloy number | ????????40Kg,20min | ?????????15Kg,20min | ||
| Roll attitude | Aging state | Roll attitude | Aging state | |
| 12345 wear resistant brass | ?????0.086 ?????0.10 ?????0.11 ?????0.077 ?????0.077 | ????0.0324 ????0.0462 ????0.0515 ????0.0188 ????0.01?88 | ????0.0345 ????0.0412 ????0.0515 ????0.0188 ????0.025 | ????0.0137 ????0.0217 ????0.025 ????0.0079 ????0.00515 |
| ??????????0.229 | ????????????0.129 | |||
Claims (5)
1. a titanium carbide reinforced antiwear aluminium alloy is characterized in that the composition of alloy is: matrix alloy+(1.0~15.0) wt%TiC
Wherein the composition of matrix alloy is: Cu:0.1~8.0wt%
Mg:0.2~3.0wt%
Si:0.2~4.0wt%
Mn:0.2~2.0wt%
Zr:0.01~1.0wt%
Ce:0.01~1.0wt%
Al: surplus.
2. titanium carbide according to claim 1 increases wear-resistant aluminum alloy, it is characterized in that can also adding 0.5~5.0wt%Zn in the above-mentioned matrix alloy.
3. the preparation technology of a titanium carbide reinforced antiwear aluminium alloy is characterized in that and can prepare master alloy, refabrication blank or ingot casting earlier with fusion casting or thermal explosion synthesis method.
4. the preparation technology of a kind of titanium carbide reinforced antiwear aluminium alloy according to claim 3, it is as follows to it is characterized in that preparing the master alloy processing step with fusion casting: earlier with aluminium powder (10-30%), titanium valve (56-72%) and carbon dust (14-18%) mix with mechanical means, be compacted into bulk then, secondly, adding fine aluminium or alloy aluminium block and energising in an induction furnace heats up, treat that aluminium block fusing back adds the powder agglomates of 10-30%, and stir, after dissolving in aluminium liquid fully Deng powder agglomates, aluminium liquid is poured in the mold, after the mold cooling, ingot casting is taken out, promptly obtain master alloy.
5. the preparation technology of a kind of titanium carbide reinforced antiwear aluminium alloy according to claim 3, it is as follows to it is characterized in that preparing the master alloy processing step with the thermal explosion synthesis method: after aluminium powder (30-60%), titanium valve (32-56%) and carbon dust (8-14%) are mixed with mechanical means, be compacted into piece, then such powder agglomates is put into the plumbago crucible of high frequency furnace, method with high-frequency induction quickly heats up to generation thermal explosion reaction in the crucible with crucible, forms required master alloy.
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| CN99114272A CN1079443C (en) | 1999-06-24 | 1999-06-24 | Titanium carbide reinforced antiwear aluminium alloy and its preparing process |
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| CN99114272A CN1079443C (en) | 1999-06-24 | 1999-06-24 | Titanium carbide reinforced antiwear aluminium alloy and its preparing process |
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| CN1325681C (en) * | 2005-04-26 | 2007-07-11 | 河北工业大学 | Ceramic granule reinforced aluminium-base composite material and its preparing method |
| CN100376705C (en) * | 2002-12-11 | 2008-03-26 | 山东大学 | Prepn of alumina-titanium carbide particle reinforced aluminium-base composite material |
| CN100419103C (en) * | 2004-11-14 | 2008-09-17 | 林海 | High temperature antiwear alloy |
| CN102176973A (en) * | 2008-09-19 | 2011-09-07 | 马格托国际股份有限公司 | Composite impactor for percussion crushers |
| CN102392160A (en) * | 2011-11-17 | 2012-03-28 | 张洁 | Aluminium alloy for electric bicycle wheel rim |
| CN102517479A (en) * | 2012-01-12 | 2012-06-27 | 山推工程机械股份有限公司 | Composite material for bearing bush and preparation method for composite material |
| CN103031462A (en) * | 2012-12-28 | 2013-04-10 | 山东大学 | Fabrication method of titanium carbide particle reinforced aluminum-copper base composite |
| CN105568093A (en) * | 2015-12-31 | 2016-05-11 | 华峰日轻铝业股份有限公司 | Aluminum copper manganese alloy for lithium battery shell and preparation method thereof |
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| CN107557621A (en) * | 2017-08-31 | 2018-01-09 | 国网河南省电力公司西峡县供电公司 | It is a kind of suitable for aluminium alloy conductor of overhead transmission line and preparation method thereof |
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| CN108161209A (en) * | 2017-12-23 | 2018-06-15 | 深圳万佳互动科技有限公司 | Aluminum matrix composite and preparation method thereof |
| CN109182802A (en) * | 2018-11-12 | 2019-01-11 | 华北电力大学(保定) | A kind of carbon material enhancing copper/aluminum matrix composite preparation method |
| CN110184514A (en) * | 2019-05-16 | 2019-08-30 | 江苏理工学院 | A kind of in-situ nano TiC particle REINFORCED Al-Cu based composites and preparation method thereof |
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| JP3417217B2 (en) * | 1996-06-07 | 2003-06-16 | トヨタ自動車株式会社 | Method for producing titanium carbide particle-dispersed metal matrix composite material |
| JPH10219312A (en) * | 1997-02-10 | 1998-08-18 | Toyota Motor Corp | Titanium carbide dispersion-strengthened aluminum-base powder, its production and titanium carbide dispersion-strengthened aluminum-base composite material |
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| CN100376705C (en) * | 2002-12-11 | 2008-03-26 | 山东大学 | Prepn of alumina-titanium carbide particle reinforced aluminium-base composite material |
| CN100419103C (en) * | 2004-11-14 | 2008-09-17 | 林海 | High temperature antiwear alloy |
| CN1325681C (en) * | 2005-04-26 | 2007-07-11 | 河北工业大学 | Ceramic granule reinforced aluminium-base composite material and its preparing method |
| CN102176973A (en) * | 2008-09-19 | 2011-09-07 | 马格托国际股份有限公司 | Composite impactor for percussion crushers |
| CN102392160B (en) * | 2011-11-17 | 2016-12-14 | 陈丹红 | A kind of aluminium alloy for electric bicycle wheel rim |
| CN102392160A (en) * | 2011-11-17 | 2012-03-28 | 张洁 | Aluminium alloy for electric bicycle wheel rim |
| CN102517479A (en) * | 2012-01-12 | 2012-06-27 | 山推工程机械股份有限公司 | Composite material for bearing bush and preparation method for composite material |
| CN102517479B (en) * | 2012-01-12 | 2013-09-04 | 山推工程机械股份有限公司 | Composite material for bearing bush and preparation method for composite material |
| CN103031462A (en) * | 2012-12-28 | 2013-04-10 | 山东大学 | Fabrication method of titanium carbide particle reinforced aluminum-copper base composite |
| CN105568093A (en) * | 2015-12-31 | 2016-05-11 | 华峰日轻铝业股份有限公司 | Aluminum copper manganese alloy for lithium battery shell and preparation method thereof |
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| CN108103346B (en) * | 2017-06-12 | 2019-09-13 | 吉林大学 | Contain micro nano particle aluminium alloy welding wire wire rod and preparation method thereof |
| CN107557621A (en) * | 2017-08-31 | 2018-01-09 | 国网河南省电力公司西峡县供电公司 | It is a kind of suitable for aluminium alloy conductor of overhead transmission line and preparation method thereof |
| CN108161209A (en) * | 2017-12-23 | 2018-06-15 | 深圳万佳互动科技有限公司 | Aluminum matrix composite and preparation method thereof |
| CN109182802A (en) * | 2018-11-12 | 2019-01-11 | 华北电力大学(保定) | A kind of carbon material enhancing copper/aluminum matrix composite preparation method |
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