CN100584979C - A kind of aluminum-magnesium alloy wire - Google Patents

Abstract

The present invention discloses to people that a kind of quality is good, low cost aluminum-magnesium alloy wires, it is made up of following raw materials by weight percent: it is made up of following raw materials by weight percent: manganese 0.01-0.30%, titanium 0.05-0.35%, chromium 0.03-0.42%, magnesium 2-8%, surplus is an aluminium; In the present invention, manganese can be gained in strength, and aluminium liquid is played refining effect; Titanium has snappiness, and is anti-oxidant, and aluminium liquid is also played refining effect; Bright and clean, intensity effect that chromium, magnesium play; Advantage of the present invention is: eliminate the easy oxidative phenomena of aluminum-magnesium alloy wire, tensile strength improves (about hard silk 400MPA), and silk does not enclose song, does not abrade, and anti-oxidant, smooth finish is good, thus, has the characteristic that quality is good, cost is low; Be widely used in concentric cable litzendraht and various penstock litzendraht and aluminium welding wire.

Description

A kind of aluminum-magnesium alloy wire

Technical field

The present invention relates to be applied to a kind of aluminum-magnesium alloy wire on concentric cable litzendraht and various penstock litzendraht and the aluminium welding wire, belong to the aluminium metallurgy industry.

Background technology

At present, used aluminum-magnesium alloy wire in the concentric cable litzendraht of domestic most manufacturer production and various penstock litzendraht and the aluminium welding wire, its prescription is magnesium, manganese, chromium, aluminium, because each metal ingredient not research and development is extremely best, so product encloses song easily, tensile strength not high (hard silk about 260MPA), oxidation easily, scratch easily, luminance brightness is not enough, add at high speed machine and break easily man-hour, have a strong impact on output, therefore can not satisfy customer requirement and demand domestic, the world market.

Summary of the invention

At the technical problem of above-mentioned existence, the present invention proposes that a kind of quality is good, low cost aluminum-magnesium alloy wires.

Technical scheme of the present invention is achieved in that a kind of aluminum-magnesium alloy wire, and it is made up of following raw materials by weight percent: manganese 0.01-0.30%, and titanium 0.05-0.35%, chromium 0.03-0.42%, magnesium 2-8%, surplus is an aluminium.

Its further raw materials by weight percent is formed: manganese 0.05-0.25%, and titanium 0.06-0.25%, chromium 0.08-0.4%, magnesium 3-7%, surplus is an aluminium.

Its best raw materials by weight percent is formed: manganese 0.08-0.23%, and titanium 0.07-0.24%, chromium 0.1-0.35%, magnesium 3.5-6.5%, iron 0.01-0.20%, silicon 0.03-0.25%, nickel 0.02-0.15%, gallium 0.01-0.25%, surplus is an aluminium.

In the present invention, manganese can be gained in strength, and aluminium liquid is played refining effect; Titanium has snappiness, and is anti-oxidant, and aluminium liquid is also played refining effect; Bright and clean, intensity effect that chromium, magnesium play, iron, silicon, nickel are mainly used to satisfy the mechanical property requirements in the processes process.

Advantage of the present invention is: eliminate the easy oxidative phenomena of aluminum-magnesium alloy wire, tensile strength improves (about hard silk 400MPA), and silk does not enclose song, does not abrade, and anti-oxidant, smooth finish is good, thus, has the characteristic that quality is good, cost is low.

Central Plains of the present invention material aluminium is that Ningxia adds peaceful Aluminum company limited and produces; Other raw metals are bought from East China supply and marketing company of China Non-Ferrous Metals Industry.

Embodiment

Embodiment one:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.05%, titanium 0.12%, chromium 0.16%, magnesium 4.5%, aluminium 95.17%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 0.5 kilogram in manganese, 1.2 kilograms of titaniums, 1.6 kilograms of chromium melt through bogey, with 4.95 kilograms of neutralizations of aluminium ingot, are cast into little aluminum alloy ingot and weigh 8.25 kilograms altogether, and are standby.

(2) getting 946.75 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 45 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment two:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.12%, titanium 0.17%, chromium 0.09%, magnesium 5%, aluminium 94.62%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 1.2 kilograms in manganese, 1.7 kilograms of titaniums, 0.9 kilogram of chromium melts through bogey, with 5.7 kilograms of neutralizations of aluminium ingot, is cast into little aluminum alloy ingot and weighs 9.5 kilograms altogether, and is standby.

(2) getting 940.5 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 50 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment three:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.22%, titanium 0.09%, chromium 0.13%, magnesium 3.8%, aluminium 95.76%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 2.2 kilograms in manganese, 0.9 kilogram of titanium, 1.3 kilograms of chromium melt through bogey, with 6.6 kilograms of neutralizations of aluminium ingot, are cast into little aluminum alloy ingot and weigh 11 kilograms altogether, and are standby.

(2) getting 951 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 38 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment four:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.07%, titanium 0.25%, chromium 0.07%, magnesium 6.3%, aluminium 93.31%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 0.7 kilogram in manganese, 2.5 kilograms of titaniums, 0.7 kilogram of chromium melts through bogey, with 5.85 kilograms of neutralizations of aluminium ingot, is cast into little aluminum alloy ingot and weighs 9.75 kilograms altogether, and is standby.

(2) getting 927.25 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 63 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment five:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.20%, titanium 0.08%, chromium 0.32%, magnesium 3.1%, iron 0.06%, aluminium 96.24%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 2 kilograms in manganese, 0.8 kilogram of titanium, 3.2 kilograms of chromium, 0.6 kilogram of iron melts through bogey, with 9.9 kilograms of neutralizations of aluminium ingot, is cast into little aluminum alloy ingot and weighs 16.5 kilograms altogether, and is standby.

(2) getting 952.5 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, melt fully Deng aluminium ingot, 31 kilograms in adding magnesium waits magnesium to melt the ammonium chloride of 10 kilograms of back inputs fully and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last.Draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment six:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.11%, titanium 0.15%, chromium 0.28%, magnesium 4.7%, silicon 0.13%, aluminium 94.63%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 1.1 kilograms in manganese, 1.5 kilograms of titaniums, 2.8 kilograms of chromium, 1.3 kilograms of silicon melt through bogey, with 10.05 kilograms of neutralizations of aluminium ingot, are cast into little aluminum alloy ingot and weigh 16.75 kilograms altogether, and are standby.

(2) getting 936.25 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 47 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment seven:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.06%, titanium 0.23%, chromium 0.21%, magnesium 5.9%, nickel 0.14%, aluminium 93.46%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 0.6 kilogram in manganese, 2.3 kilograms of titaniums, 2.1 kilograms of chromium, 1.4 kilograms in nickel melts through bogey, with 9.6 kilograms of neutralizations of aluminium ingot, is cast into little aluminum alloy ingot and weighs 16 kilograms altogether, and is standby.

(2) getting 925 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 59 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment eight:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.17%, titanium 0.20%, chromium 0.15%, magnesium 5.3%, gallium 0.21%, aluminium 93.97%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 1.7 kilograms in manganese, 2 kilograms of titaniums, 1.5 kilograms of chromium, 2.1 kilograms of galliums melt through bogey, with 10.95 kilograms of neutralizations of aluminium ingot, are cast into little aluminum alloy ingot and weigh 18.25 kilograms altogether, and are standby.

(2) getting 928.75 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 53 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment nine:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.26%, titanium 0.18%, chromium 0.25%, magnesium 6.9%, iron 0.14%, aluminium 92.27%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 2.6 kilograms in manganese, 1.8 kilograms of titaniums, 2.5 kilograms of chromium, 1.4 kilograms of iron melt through bogey, with 12.45 kilograms of neutralizations of aluminium ingot, are cast into little aluminum alloy ingot and weigh 20.75 kilograms altogether, and are standby.

(2) getting 910.25 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 69 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment ten:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.14%, titanium 0.30%, chromium 0.10%, magnesium 6%, silicon 0.15%, aluminium 93.31%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 1.4 kilograms in manganese, 3 kilograms of titaniums, 1 kilogram of chromium, 1.5 kilograms of silicon melt through bogey, with 10.35 kilograms of neutralizations of aluminium ingot, are cast into little aluminum alloy ingot and weigh 17.25 kilograms altogether, and are standby.

(2) getting 922.75 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 60 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment 11:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.12%, titanium 0.15%, chromium 0.25%, magnesium 4.5%, iron 0.05%, silicon 0.08%, nickel 0.06%, gallium 0.03%, aluminium 94.76%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 1.2 kilograms in manganese, 1.5 kilograms of titaniums, 2.5 kilograms of chromium, 0.5 kilogram of iron, 0.8 kilogram of silicon, 0.6 kilogram in nickel, 0.3 kilogram of gallium melts through bogey, with 11.1 kilograms of neutralizations of aluminium ingot, is cast into little aluminum alloy ingot and weighs 18.5 kilograms altogether, and is standby.

(2) getting 936.5 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 45 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment 12:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.18%, titanium 0.12%, chromium 0.32%, magnesium 3.8%, iron 0.12%, silicon 0.09%, nickel 0.04%, gallium 0.05%, aluminium 95.28%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 1.8 kilograms in manganese, 1.2 kilograms of titaniums, 3.2 kilograms of chromium, 1.2 kilograms of iron, 0.9 kilogram of silicon, 0.4 kilogram in nickel, 0.5 kilogram of gallium melts through bogey, with 13.8 kilograms of neutralizations of aluminium ingot, is cast into little aluminum alloy ingot and weighs 23 kilograms altogether, and is standby.

(2) getting 939 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 38 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment 13:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.15%, titanium 0.21%, chromium 0.21%, magnesium 5.6%, iron 0.09%, silicon 0.14%, nickel 0.12%, gallium 0.18%, aluminium 93.3%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 1.5 kilograms in manganese, 2.1 kilograms of titaniums, 2.1 kilograms of chromium, 0.9 kilogram of iron, 1.4 kilograms of silicon, 1.2 kilograms in nickel, 1.8 kilograms of galliums melt through bogey, with 16.5 kilograms of neutralizations of aluminium ingot, are cast into little aluminum alloy ingot and weigh 27.5 kilograms altogether, and are standby.

(2) getting 916.5 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 56 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment 14:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.09%, titanium 0.14%, chromium 0.14%, magnesium 4.9%, iron 0.15%, silicon 0.18%, nickel 0.08%, gallium 0.15%, aluminium 94.17%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 0.9 kilogram in manganese, 1.4 kilograms of titaniums, 1.4 kilograms of chromium, 1.5 kilograms of iron, 1.8 kilograms of silicon, 0.8 kilogram in nickel, 1.5 kilograms of galliums melt through bogey, with 13.95 kilograms of neutralizations of aluminium ingot, are cast into little aluminum alloy ingot and weigh 23.25 kilograms altogether, and are standby.

(2) getting 927.75 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 49 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment 15:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.13%, titanium 0.08%, chromium 0.19%, magnesium 5.2%, iron 0.18%, silicon 0.05%, nickel 0.09%, gallium 0.09%, aluminium 93.99%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 1.3 kilograms in manganese, 0.8 kilogram of titanium, 1.9 kilograms of chromium, 1.8 kilograms of iron, 0.5 kilogram of silicon, 0.9 kilogram in nickel, 0.9 kilogram of gallium melts through bogey, with 12.15 kilograms of neutralizations of aluminium ingot, is cast into little aluminum alloy ingot and weighs 20.25 kilograms altogether, and is standby.

(2) getting 927.75 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 52 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment 16:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.20%, titanium 0.17%, chromium 0.17%, magnesium 5.5%, iron 0.10%, silicon 0.16%, nickel 0.10%, gallium 0.04%, aluminium 93.56%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 2 kilograms in manganese, 1.7 kilograms of titaniums, 1.7 kilograms of chromium, 1 kilogram of iron, 1.6 kilograms of silicon, 1 kilogram in nickel, 0.4 kilogram of gallium melts through bogey, with 14.1 kilograms of neutralizations of aluminium ingot, is cast into little aluminum alloy ingot and weighs 23.5 kilograms altogether, and is standby.

(2) getting 921.5 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 55 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment 17:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.17%, titanium 0.20%, chromium 0.23%, magnesium 6.2%, iron 0.07%, silicon 0.23%, nickel 0.07%, gallium 0.14%, aluminium 92.69%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 1.7 kilograms in manganese, 2 kilograms of titaniums, 2.3 kilograms of chromium, 0.7 kilogram of iron, 2.3 kilograms of silicon, 0.7 kilogram in nickel, 1.4 kilograms of galliums melt through bogey, with 16.65 kilograms of neutralizations of aluminium ingot, are cast into little aluminum alloy ingot and weigh 27.75 kilograms altogether, and are standby.

(2) getting 910.25 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 62 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment 18:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.22%, titanium 0.18%, chromium 0.28%, magnesium 5.7%, iron 0.13%, silicon 0.20%, nickel 0.05%, gallium 0.20%, aluminium 93.04%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 2.2 kilograms in manganese, 1.8 kilograms of titaniums, 2.8 kilograms of chromium, 1.3 kilograms of iron, 2 kilograms of silicon, 0.5 kilogram in nickel, 2 kilograms of galliums melt through bogey, with 18.9 kilograms of neutralizations of aluminium ingot, are cast into little aluminum alloy ingot and weigh 31.5 kilograms altogether, and are standby.

(2) getting 911.5 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 57 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment 19:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.16%, titanium 0.09%, chromium 0.12%, magnesium 5%, iron 0.17%, silicon 0.15%, nickel 0.13%, gallium 0.16%, aluminium 94.02%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 1.6 kilograms in manganese, 0.9 kilogram of titanium, 1.2 kilograms of chromium, 1.7 kilograms of iron, 1.5 kilograms of silicon, 1.3 kilograms in nickel, 1.6 kilograms of galliums melt through bogey, with 14.7 kilograms of neutralizations of aluminium ingot, are cast into little aluminum alloy ingot and weigh 24.5 kilograms altogether, and are standby.

(2) getting 925.5 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 50 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Embodiment 20:

A kind of aluminum-magnesium alloy wire, it is made up of following raw materials by weight percent: manganese 0.08%, titanium 0.13%, chromium 0.26%, magnesium 6%, iron 0.06%, silicon 0.10%, nickel 0.11%, gallium 0.07%, aluminium 93.19%.

Production technique of the present invention following (is example with 1000 kilograms):

(1) with 0.8 kilogram in manganese, 1.3 kilograms of titaniums, 2.6 kilograms of chromium, 0.6 kilogram of iron, 1 kilogram of silicon, 1.1 kilograms in nickel, 0.7 kilogram of gallium melts through bogey, with 12.15 kilograms of neutralizations of aluminium ingot, is cast into little aluminum alloy ingot and weighs 20.25 kilograms altogether, and is standby.

(2) getting 919.75 kilograms of starting material aluminiums refines by smelting furnace, temperature is controlled at 700 ℃ ± 10 ℃, melting 3 hours, little aluminum alloy ingot and aluminium are put into smelting furnace together, wait aluminium ingot to melt fully, add 60 kilograms in magnesium, melt fully in magnesium that 10 kilograms ammonium chloride is dropped in the back and 1 kilogram borax carries out slag making to aluminium liquid, after carry out scarfing cinder, put into holding furnace (temperature is at 670 ℃ ± 10 ℃) at last, draw the aluminum-magnesium alloy wire that pulls into all size behind the aluminum magnesium alloy bar.

Be the contrast of product of the present invention and original technical products detected result below

Name of product	Product specification	Tensile strength (PMA)	Resistivity (Ω mm/m)
				Product of the present invention	Φ0.16	400-420	≤0.05945
Original technical products	Φ0.16	260-280	≤0.06525

Last table can prove absolutely that the every index performance of product of the present invention all above original technical products, has incomparable advantage.

Claims (1)

1. aluminum magnesium alloy, it is characterized in that: the composition of this alloy silk is by weight percentage: manganese 0.08-0.23%, titanium 0.07-0.24%, chromium 0.1-0.35%, magnesium 3.5-6.5%, iron 0.01-0.20%, silicon 0.03-0.25%, nickel 0.09%, gallium 0.09%, surplus is an aluminium.