CN107058850A - A kind of high-toughness high-strength high conductivity aluminium alloy conductor material - Google Patents

Abstract

The invention belongs to aluminium alloy conductor Material Field, especially a kind of high-toughness high-strength high conductivity aluminium alloy conductor material, do not possess excellent electric conductivity, toughness, anti-wear performance and hardness for existing aluminium alloy conductor material, cause using the problem of being limited in scope, following scheme is now proposed, includes the raw material of following parts by weight：20 25 parts of aluminium, 21 24 parts of iron, 18 22 parts of manganese, 16 19 parts of chromium, 17 20 parts of carborundum, 15 18 parts of graphite, 14 17 parts of titanium oxide, 11 14 parts of magnesia, 13 16 parts of cobalt, 12 15 parts of copper, 8 12 parts of tin, 69 parts of calcium, 58 parts of palladium；Its preparation method comprises the following steps：S1：Aluminium, iron, manganese and chromium are added in ball mill, the 3h of ball milling 1, are well mixed, then feed the mixture into high temperature melting furnace, under conditions of high-purity argon gas protection, be warming up to 800 850 DEG C, mixing A is made in the 45min of high melt 40.The present invention possesses excellent electric conductivity, toughness, anti-wear performance and hardness, applied widely, and preparation method is simple, and preparation efficiency is high, prepares cost low.

Description

A kind of high-toughness high-strength high conductivity aluminium alloy conductor material

Technical field

Closed the present invention relates to aluminium alloy conductor field of material technology, more particularly to a kind of high-toughness high-strength high conductivity aluminium Golden conductor material.

Background technology

Aluminium is widely used as a kind of conductive material in electrician trade, and its advantage protruded is led with excellent Electrical property and lightweight, aboundresources, but aluminium, there is also the poor shortcoming of mechanical performance, therefore, people add it in fine aluminium Its member usually improves its performance, just generates aluminium alloy.

The patent document of Application No. 201510102258.7 discloses a kind of aluminium alloy conductor material of high conductivity, uses In providing a kind of aluminum alloy materials for possessing high electrical conductivity and preparation method thereof, still, its conductance does not reach strict demand, And toughness and hardness are general, cause using being limited in scope.

The patent document of Application No. 201510121398.9 discloses a kind of aluminium alloy conductor material, for improving wire Electric conductivity, anti-wear performance and resistance to elevated temperatures, still, its electric conductivity does not reach strict demand, and toughness and hardness are general, Cause to use and be limited in scope.

The content of the invention

A kind of high-toughness high-strength high conductivity aluminium alloy conductor material proposed by the present invention, solves existing aluminium alloy Conductor material does not possess excellent electric conductivity, toughness, anti-wear performance and hardness, causes using the problem of being limited in scope.

To achieve these goals, present invention employs following technical scheme：

A kind of high-toughness high-strength high conductivity aluminium alloy conductor material, includes the raw material of following parts by weight：Aluminium 20-25 Part, 21-24 parts of iron, 18-22 parts of manganese, 16-19 parts of chromium, 17-20 parts of carborundum, 15-18 parts of graphite, 14-17 parts of titanium oxide, oxidation 11-14 parts of magnesium, 13-16 parts of cobalt, 12-15 parts of copper, 8-12 parts of tin, 6-9 parts of calcium, 5-8 parts of palladium；

Its preparation method comprises the following steps：

S1：Aluminium, iron, manganese and chromium are added in ball mill, ball milling 1-3h, are well mixed, then feed the mixture into high temperature In smelting furnace, under conditions of high-purity argon gas protection, 800-850 DEG C is warming up to, mixing A is made in high melt 40-45min；

S2：Carborundum, graphite, titanium oxide and magnesia are added in ball mill, ball milling 55-60min, after being well mixed, Mixture B is made, then mixture B is added in mixture A, 860-880 DEG C is warming up to, is stirred with 400-450r/min rotating speed 30-35min is mixed, mixture C is made；

S3：Cobalt, copper, tin, calcium and palladium are added in ball mill, ball milling 50-55min, after being well mixed, mixture D are made, Then mixture D is added in mixture C, is cooled to 830-860 DEG C, with 420-460r/min rotating speed stirring until mixture After D and mixture C are melted completely, 20-25min is kept, mixture E is made；

S4：Mixture E is poured into mould, 420-450 DEG C is cooled to, 3-6h is kept；

S5：The mixture E that will be cooled to 420-450 DEG C is quenched, and hardening heat is 100-130 DEG C, and the cool time is 1.2-1.6h, is subsequently cooled to room temperature, and high-toughness high-strength high conductivity aluminium alloy conductor material is made.

It is preferred that, include the raw material of following parts by weight：21-24 parts of aluminium, 22-23 parts of iron, 19-21 parts of manganese, 17-18 parts of chromium, 18-19 parts of carborundum, 16-17 parts of graphite, 15-16 parts of titanium oxide, 12-13 parts of magnesia, 14-15 parts of cobalt, 13-14 parts of copper, tin 9-11 parts, 7-8 parts of calcium, 6-7 parts of palladium.

It is preferred that, in the S1, aluminium, iron, manganese and chromium are added in ball mill, ball milling 1-3h, are well mixed, then will be mixed Compound is added in high temperature melting furnace, and under conditions of high-purity argon gas protection, 800-850 is warming up to 12-15 DEG C/min speed DEG C, mixing A is made in high melt 40-45min.

It is preferred that, in the S1, aluminium, iron, manganese and chromium are added in ball mill, ball milling 2-3h, are well mixed, then will be mixed Compound is added in high temperature melting furnace, and under conditions of high-purity argon gas protection, 810-840 is warming up to 13-14 DEG C/min speed DEG C, mixing A is made in high melt 41-44min.

It is preferred that, in the S2, carborundum, graphite, titanium oxide and magnesia are added in ball mill, ball milling 55- 60min, after being well mixed, is made mixture B, then adds mixture B in mixture A, heated up with 5-8 DEG C/min speed To 860-880 DEG C, 30-35min is stirred with 400-450r/min rotating speed, mixture C is made.

It is preferred that, in the S2, carborundum, graphite, titanium oxide and magnesia are added in ball mill, ball milling 56- 59min, after being well mixed, is made mixture B, then adds mixture B in mixture A, heated up with 6-7 DEG C/min speed To 870-880 DEG C, 31-34min is stirred with 410-440r/min rotating speed, mixture C is made.

It is preferred that, in the S3, cobalt, copper, tin, calcium and palladium are added in ball mill, ball milling 50-55min, are well mixed Afterwards, mixture D is made, then mixture D is added in mixture C, 830-860 DEG C is cooled to 4-7 DEG C/min speed, with 420-460r/min rotating speed stirring is until after the thawing completely of mixture D and mixture C, keeping 20-25min, mixture being made E。

It is preferred that, in the S3, cobalt, copper, tin, calcium and palladium are added in ball mill, ball milling 51-54min, are well mixed Afterwards, mixture D is made, then mixture D is added in mixture C, 840-850 DEG C is cooled to 5-6 DEG C/min speed, with 430-450r/min rotating speed stirring is until after the thawing completely of mixture D and mixture C, keeping 21-24min, mixture being made E。

It is preferred that, in the S4, mixture E is poured into mould, 430-440 DEG C is cooled to, 4-5h is kept.

It is preferred that, in the S5, the mixture E that will be cooled to 430-440 DEG C is quenched, and hardening heat is 110-120 DEG C, the cool time is 1.3-1.5h, is subsequently cooled to room temperature, and high-toughness high-strength high conductivity aluminium alloy conductor material is made.

Compared with prior art, the beneficial effects of the invention are as follows：

1st, by possessing good electric conductivity, toughness using aluminium, iron, manganese and chromium the aluminium alloy conductor material made from major ingredient And hardness；

2nd, leading for aluminium alloy conductor material can further be improved by adding carborundum, graphite, titanium oxide and magnesia Electrical property, anti-wear performance, resistance to elevated temperatures and hardness；

3rd, the harmony between each raw material can be improved by adding cobalt and calcium, and aluminium alloy conductor material can be strengthened Corrosion resistance and electric conductivity, the electric conductivity of aluminium alloy conductor material can be further improved by adding palladium, copper and tin；

4th, by adding in ball mill and carrying out ball milling, by carborundum, graphite, titanium oxide and magnesia aluminium, iron, manganese and chromium Add ball mill in carry out ball milling and will cobalt, copper, tin, calcium and palladium add ball mill in carry out ball milling can be easy to it is full and uniform Each raw material is mixed, the quality of the aluminium alloy conductor material prepared is improved.

The present invention possesses excellent electric conductivity, toughness, anti-wear performance and hardness, applied widely, and preparation method letter Single, preparation efficiency is high, prepares cost low.

Embodiment

The technical scheme in the embodiment of the present invention is clearly and completely described below, it is clear that described embodiment Only a part of embodiment of the invention, rather than whole embodiments.

Embodiment one

The present embodiment proposes a kind of high-toughness high-strength high conductivity aluminium alloy conductor material, including following parts by weight Raw material：20 parts of aluminium, 21 parts of iron, 18 parts of manganese, 16 parts of chromium, 17 parts of carborundum, 15 parts of graphite, 14 parts of titanium oxide, 11 parts of magnesia, cobalt 13 parts, 12 parts of copper, 8 parts of tin, 6 parts of calcium, 5 parts of palladium；

Its preparation method comprises the following steps：

S1：Aluminium, iron, manganese and chromium are added in ball mill, ball milling 1h, are well mixed, then feed the mixture into high temperature melting In furnace, under conditions of high-purity argon gas protection, 800 DEG C are warming up to 12 DEG C/min speed, high melt 40min is made Mix A；

S2：Carborundum, graphite, titanium oxide and magnesia are added in ball mill, ball milling 55min, after being well mixed, are made Mixture B, then mixture B is added in mixture A, 860 DEG C are warming up to 5 DEG C/min speed, with turning for 400r/min Speed stirring 30min, is made mixture C；

S3：Cobalt, copper, tin, calcium and palladium are added in ball mill, ball milling 50min, after being well mixed, mixture D is made, so Mixture D is added in mixture C afterwards, 830 DEG C are cooled to 4 DEG C/min speed, with the stirring of 420r/min rotating speed until After mixture D and mixture C are melted completely, 20min is kept, mixture E is made；

S4：Mixture E is poured into mould, 420 DEG C are cooled to, 3h is kept；

S5：The mixture E that will be cooled to 420 DEG C is quenched, and hardening heat is 100 DEG C, and the cool time is 1.2h, then Room temperature is cooled to, high-toughness high-strength high conductivity aluminium alloy conductor material is made.

Embodiment two

The present embodiment proposes a kind of high-toughness high-strength high conductivity aluminium alloy conductor material, including following parts by weight Raw material：21 parts of aluminium, 22 parts of iron, 19 parts of manganese, 17 parts of chromium, 18 parts of carborundum, 16 parts of graphite, 15 parts of titanium oxide, 12 parts of magnesia, cobalt 14 parts, 13 parts of copper, 9 parts of tin, 7 parts of calcium, 6 parts of palladium；

Its preparation method comprises the following steps：

S1：Aluminium, iron, manganese and chromium are added in ball mill, ball milling 2h, are well mixed, then feed the mixture into high temperature melting In furnace, under conditions of high-purity argon gas protection, 810 DEG C are warming up to 13 DEG C/min speed, high melt 41min is made Mix A；

S2：Carborundum, graphite, titanium oxide and magnesia are added in ball mill, ball milling 56min, after being well mixed, are made Mixture B, then mixture B is added in mixture A, 870 DEG C are warming up to 6 DEG C/min speed, with turning for 410r/min Speed stirring 31min, is made mixture C；

S3：Cobalt, copper, tin, calcium and palladium are added in ball mill, ball milling 51min, after being well mixed, mixture D is made, so Mixture D is added in mixture C afterwards, 840 DEG C are cooled to 5 DEG C/min speed, with the stirring of 430r/min rotating speed until After mixture D and mixture C are melted completely, 21min is kept, mixture E is made；

S4：Mixture E is poured into mould, 430 DEG C are cooled to, 4h is kept；

S5：The mixture E that will be cooled to 430 DEG C is quenched, and hardening heat is 110 DEG C, and the cool time is 1.3h, then Room temperature is cooled to, high-toughness high-strength high conductivity aluminium alloy conductor material is made.

Embodiment three

The present embodiment proposes a kind of high-toughness high-strength high conductivity aluminium alloy conductor material, including following parts by weight Raw material：24 parts of aluminium, 23 parts of iron, 21 parts of manganese, 18 parts of chromium, 19 parts of carborundum, 17 parts of graphite, 16 parts of titanium oxide, 13 parts of magnesia, cobalt 15 parts, 14 parts of copper, 11 parts of tin, 8 parts of calcium, 7 parts of palladium；

Its preparation method comprises the following steps：

S1：Aluminium, iron, manganese and chromium are added in ball mill, ball milling 2h, are well mixed, then feed the mixture into high temperature melting In furnace, under conditions of high-purity argon gas protection, 840 DEG C are warming up to 14 DEG C/min speed, high melt 44min is made Mix A；

S2：Carborundum, graphite, titanium oxide and magnesia are added in ball mill, ball milling 59min, after being well mixed, are made Mixture B, then mixture B is added in mixture A, 870 DEG C are warming up to 7 DEG C/min speed, with turning for 440r/min Speed stirring 34min, is made mixture C；

S3：Cobalt, copper, tin, calcium and palladium are added in ball mill, ball milling 54min, after being well mixed, mixture D is made, so Mixture D is added in mixture C afterwards, 850 DEG C are cooled to 6 DEG C/min speed, with the stirring of 450r/min rotating speed until After mixture D and mixture C are melted completely, 24min is kept, mixture E is made；

S4：Mixture E is poured into mould, 440 DEG C are cooled to, 5h is kept；

S5：The mixture E that will be cooled to 440 DEG C is quenched, and hardening heat is 120 DEG C, and the cool time is 1.5h, then Room temperature is cooled to, high-toughness high-strength high conductivity aluminium alloy conductor material is made.

Example IV

The present embodiment proposes a kind of high-toughness high-strength high conductivity aluminium alloy conductor material, including following parts by weight Raw material：25 parts of aluminium, 24 parts of iron, 22 parts of manganese, 19 parts of chromium, 20 parts of carborundum, 18 parts of graphite, 17 parts of titanium oxide, 14 parts of magnesia, cobalt 16 parts, 15 parts of copper, 12 parts of tin, 9 parts of calcium, 8 parts of palladium；

Its preparation method comprises the following steps：

S1：Aluminium, iron, manganese and chromium are added in ball mill, ball milling 3h, are well mixed, then feed the mixture into high temperature melting In furnace, under conditions of high-purity argon gas protection, 850 DEG C are warming up to 15 DEG C/min speed, high melt 45min is made Mix A；

S2：Carborundum, graphite, titanium oxide and magnesia are added in ball mill, ball milling 60min, after being well mixed, are made Mixture B, then mixture B is added in mixture A, 880 DEG C are warming up to 8 DEG C/min speed, with turning for 450r/min Speed stirring 35min, is made mixture C；

S3：Cobalt, copper, tin, calcium and palladium are added in ball mill, ball milling 55min, after being well mixed, mixture D is made, so Mixture D is added in mixture C afterwards, 860 DEG C are cooled to 7 DEG C/min speed, with the stirring of 460r/min rotating speed until After mixture D and mixture C are melted completely, 25min is kept, mixture E is made；

S4：Mixture E is poured into mould, 450 DEG C are cooled to, 6h is kept；

S5：The mixture E that will be cooled to 450 DEG C is quenched, and hardening heat is 130 DEG C, and the cool time is 1.6h, so After be cooled to room temperature, high-toughness high-strength high conductivity aluminium alloy conductor material is made.

Aluminium alloy conductor material made from embodiment one to example IV and conventional aluminum alloys conductor material are tested, Test result is as follows：

By aluminium alloy conductor material made from embodiment one to example IV and conventional aluminum alloys conductor material bending 100 It is secondary, the extension at break of aluminium alloy conductor material made from testing example one to example IV and conventional aluminum alloys conductor material Rate, test result is as follows：

To the electric conductivity of aluminium alloy conductor material made from embodiment one to example IV and conventional aluminum alloys conductor material It can be tested, test result is as follows：

From above table, aluminium alloy conductor material compares conventional aluminum alloys and led made from embodiment one to example IV The performance of wire material, which is respectively provided with, to be significantly improved, and embodiment three is most preferred embodiment.

Aluminium alloy conductor material compares the corrosion-resistant of conventional aluminum alloys conductor material made from embodiment one to example IV The raising percentage of performance and anti-wear performance is respectively 5.3-5.8% and 6.2-6.4%.

The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto, Any one skilled in the art the invention discloses technical scope in, technique according to the invention scheme and its Inventive concept is subject to equivalent substitution or change, should all be included within the scope of the present invention.

Claims (10)

1. a kind of high-toughness high-strength high conductivity aluminium alloy conductor material, it is characterised in that include the raw material of following parts by weight： 20-25 parts of aluminium, 21-24 parts of iron, 18-22 parts of manganese, 16-19 parts of chromium, 17-20 parts of carborundum, 15-18 parts of graphite, titanium oxide 14-17 Part, 11-14 parts of magnesia, 13-16 parts of cobalt, 12-15 parts of copper, 8-12 parts of tin, 6-9 parts of calcium, 5-8 parts of palladium；

Its preparation method comprises the following steps：

S1：Aluminium, iron, manganese and chromium are added in ball mill, ball milling 1-3h, are well mixed, then feed the mixture into high melt In stove, under conditions of high-purity argon gas protection, 800-850 DEG C is warming up to, mixing A is made in high melt 40-45min；

S2：Carborundum, graphite, titanium oxide and magnesia are added in ball mill, ball milling 55-60min, after being well mixed, are made Mixture B, then mixture B is added in mixture A, be warming up to 860-880 DEG C, is stirred with 400-450r/min rotating speed 30-35min, is made mixture C；

S3：Cobalt, copper, tin, calcium and palladium are added in ball mill, ball milling 50-55min, after being well mixed, mixture D is made, then Mixture D is added in mixture C, 830-860 DEG C is cooled to, with the stirring of 420-460r/min rotating speed until mixture D and After mixture C is melted completely, 20-25min is kept, mixture E is made；

S4：Mixture E is poured into mould, 420-450 DEG C is cooled to, 3-6h is kept；

S5：The mixture E that will be cooled to 420-450 DEG C is quenched, and hardening heat is 100-130 DEG C, and the cool time is 1.2- 1.6h, is subsequently cooled to room temperature, and high-toughness high-strength high conductivity aluminium alloy conductor material is made.

2. a kind of high-toughness high-strength high conductivity aluminium alloy conductor material according to claim 1, it is characterised in that bag Include the raw material of following parts by weight：21-24 parts of aluminium, 22-23 parts of iron, 19-21 parts of manganese, 17-18 parts of chromium, 18-19 parts of carborundum, graphite 16-17 parts, 15-16 parts of titanium oxide, 12-13 parts of magnesia, 14-15 parts of cobalt, 13-14 parts of copper, 9-11 parts of tin, 7-8 parts of calcium, palladium 6- 7 parts.

3. a kind of high-toughness high-strength high conductivity aluminium alloy conductor material according to claim 1, it is characterised in that institute State in S1, aluminium, iron, manganese and chromium are added in ball mill, ball milling 1-3h, be well mixed, then feed the mixture into high melt In stove, under conditions of high-purity argon gas protection, 800-850 DEG C, high melt 40- are warming up to 12-15 DEG C/min speed 45min, is made mixing A.

4. a kind of high-toughness high-strength high conductivity aluminium alloy conductor material according to claim 1 or 3, its feature exists In, in the S1, aluminium, iron, manganese and chromium are added in ball mill, ball milling 2-3h, it is well mixed, then feed the mixture into high temperature In smelting furnace, under conditions of high-purity argon gas protection, 810-840 DEG C, high melt are warming up to 13-14 DEG C/min speed 41-44min, is made mixing A.

5. a kind of high-toughness high-strength high conductivity aluminium alloy conductor material according to claim 1, it is characterised in that institute State in S2, carborundum, graphite, titanium oxide and magnesia are added in ball mill, ball milling 55-60min, after being well mixed, is made Mixture B, then mixture B is added in mixture A, 860-880 DEG C is warming up to 5-8 DEG C/min speed, with 400- 450r/min rotating speed stirring 30-35min, is made mixture C.

6. a kind of high-toughness high-strength high conductivity aluminium alloy conductor material according to claim 1 or 5, its feature exists In, in the S2, carborundum, graphite, titanium oxide and magnesia are added in ball mill, ball milling 56-59min, after being well mixed, Mixture B is made, then mixture B is added in mixture A, 870-880 DEG C is warming up to 6-7 DEG C/min speed, with 410-440r/min rotating speed stirring 31-34min, is made mixture C.

7. a kind of high-toughness high-strength high conductivity aluminium alloy conductor material according to claim 1, it is characterised in that institute State in S3, cobalt, copper, tin, calcium and palladium are added in ball mill, ball milling 50-55min, after being well mixed, mixture D is made, then Mixture D is added in mixture C, 830-860 DEG C is cooled to 4-7 DEG C/min speed, with 420-460r/min rotating speed Stirring is until after the thawing completely of mixture D and mixture C, keeping 20-25min, mixture E being made.

8. a kind of high-toughness high-strength high conductivity aluminium alloy conductor material according to claim 1 or 7, its feature exists In, in the S3, cobalt, copper, tin, calcium and palladium are added in ball mill, ball milling 51-54min, after being well mixed, obtained mixture D, then mixture D is added in mixture C, 840-850 DEG C is cooled to 5-6 DEG C/min speed, with 430-450r/min Rotating speed stirring until mixture D and mixture C melt completely after, keep 21-24min, mixture E be made.

9. a kind of high-toughness high-strength high conductivity aluminium alloy conductor material according to claim 1, it is characterised in that institute State in S4, mixture E is poured into mould, be cooled to 430-440 DEG C, keep 4-5h.

10. a kind of high-toughness high-strength high conductivity aluminium alloy conductor material according to claim 1 or 9, its feature exists In in the S5, the mixture E that will be cooled to 430-440 DEG C is quenched, and hardening heat is 110-120 DEG C, and the cool time is 1.3-1.5h, is subsequently cooled to room temperature, and high-toughness high-strength high conductivity aluminium alloy conductor material is made.