CN102465221B - Aluminum alloy tube resistant to seawater corrosion and preparation method thereof - Google Patents

Abstract

The invention relates to an aluminum alloy tube resistant to seawater corrosion, in particular to an aluminum alloy tube with high seawater corrosion resistance. The aluminum alloy tube is manufactured from magnesium, aluminum and other raw materials through the steps of: melting, stirring, in-furnace modification treatment, impurity removal, fining treatment, online argon refining, purification treatment, casting, homogenization treatment, extrusion, cold drawing and the like. The aluminum alloy tube has the advantages of good seawater corrosion resistance and long service life, is particularly suitable for equipment for low-temperature multi-effect seawater distillation and seawater desalination treatment.

Description

A kind of aluminium alloy capable of resisting corrosion of sea water pipe and preparation method thereof

Technical field

The present invention relates to a kind of aluminium-alloy pipe and production method thereof.Specifically, be aluminium-alloy pipe that has high sea water corrosion resistant and preparation method thereof, be particularly useful for the low temperature multiple-effect distillation seawater, seawater is desalinated in the equipment of processing.

Background technology

At present, with the equipment of contact with sea water in employed aluminium-alloy pipe, it comprises the element of following parts by weight: 0.25 part silicon, 0.4 part iron, 0.1 part copper, 0.1 part manganese, 2.2～2.8 parts magnesium, 0.15～0.35 part chromium, 0.1 part zinc and 9.59 parts～96.7 parts aluminium.Because the constituent contents such as the silicon in this aluminium-alloy pipe, iron, copper, zinc are higher, with the environment of contact with sea water under, very easily produce pitting attack, so that the sea water corrosion resistant of this aluminium-alloy pipe is lower.Again owing to contain chromium in the raw material of this aluminium-alloy pipe, although utilize chromium can make magnesium in the aluminium alloy precipitate mutually evenly, improve anti-corrosive nature of aluminium-alloy pipe, but meeting formation intermetallic compound is separated out at intergranular between chromium element and ferro element, thereby has reduced the anti intercrystalline corrosion performance of aluminium-alloy pipe.Secondly, because the content of magnesium elements is higher in the raw material of this aluminium-alloy pipe, although the content height of magnesium elements can make the strength increase of aluminium-alloy pipe, can reduce its cold deformation processing characteristics, and this aluminium alloy is easily separated out second-phase β (Mg along crystal boundary, subgrain boundary ₂Al ₃).And the relative aluminum substrate of β is anode, and the preferential corrosion of meeting makes aluminium alloy have very large Susceptibility To Intergranular Corrosion and Sensitivity of Stress Corrosion.This shows that the sea water corrosion resistant of above-mentioned aluminium-alloy pipe under the contact with sea water environment is relatively poor, work-ing life is short.

Summary of the invention

The problem to be solved in the present invention provides a kind of aluminium alloy capable of resisting corrosion of sea water pipe.This aluminium-alloy pipe, sea water corrosion resistant is good, long service life.

Another problem that the present invention will solve provides a kind of method for preparing the aluminium alloy capable of resisting corrosion of sea water pipe.

For addressing the above problem, take following technical scheme:

Aluminium alloy capable of resisting corrosion of sea water pipe characteristics of the present invention are the raw materials that comprise following parts by weight:

0.4～1.8 part in magnesium; 97.16～99.36 parts in aluminium.

In the described aluminium: the content of silicon less than the content of 0.08 (weight) %, iron less than the content of 0.15 (weight) %, copper less than the content of 0.005 (weight) %, zinc less than 0.005 (weight) %.Described magnesium and aluminium are respectively magnesium ingot and aluminium ingot.

In the described aluminium ingot, the weight content of aluminium 〉=99.7%.

In the described magnesium ingot, the weight content of magnesium 〉=99.8%.

The method for preparing anticorrosion aluminium may further comprise the steps successively:

First aluminium ingot is dropped into temperature and be in 730 ℃～750 ℃ the smelting furnace, make it be fused into melt;

Add again magnesium ingot, stirred 10 minutes～15 minutes;

Afterwards, the melt temperature in the smelting furnace is risen to 740 ℃～760 ℃.Meanwhile, according to the ratio adding Al rare earth alloy of 0.3 kilogram～0.8 kilogram Al rare earth alloy/ton melt, and stirred 5～10 minutes, melt is carried out the stove endomorphism process;

Afterwards, the melt spray refining powder take argon gas as carrier in the smelting furnace is removed hydrogen and aluminum oxide impurity in the melt.Refining powder wherein be Yongan, Jiangxi Province extraordinary metallurgical material company limited produce dust 4 ^#The agent of dusting;

Afterwards, melt in the stove is put into chute, and when putting into chute, according to 1.2～1.6 m/mins speed, the adding diameter is 9～9.5 millimeters aluminium titanium boron wire, and melt is carried out thinning processing.In the described aluminium titanium boron wire: the content of titanium is 4.5～5.5 (weight) %, and the content of boron is 0.8～1.3 (weight) %, and the content of aluminium is 93.2～94.3 (weight) %;

Afterwards, will put into online degasification tank through the melt of thinning processing, and to the melt blowing argon gas in the degasification tank, further remove hydrogen and aluminum oxide impurity in the melt, carry out online argon gas refining;

Afterwards, with 40 orders and 60 purpose ceramic filter plates the melt through online argon gas refining is carried out the twin-stage ceramic filter successively, melt is carried out purifying treatment;

Afterwards, will become aluminium alloy bars through the melt casting that thinning processing is crossed;

Afterwards, it is in 475 ℃～500 ℃ the homogeneous furnace that aluminium alloy bars is placed temperature, and after constant temperature under this temperature keeps 240 minutes～260 minutes, makes it be cooled to room temperature, and aluminium alloy bars is carried out homogenization treatment;

Afterwards, will be squeezed into pipe through the aluminium alloy bars of homogenization treatment;

Afterwards, the pipe cold-drawn is become aluminium-alloy pipe;

At last, aluminium-alloy pipe is heated to 160 ℃～180 ℃, and constant temperature kept 120 minutes～180 minutes under this temperature, obtained the aluminium alloy capable of resisting corrosion of sea water pipe.

Take such scheme, have the following advantages:

Can be found out by such scheme, compare with the raw material of aluminium-alloy pipe in the background technology, owing to greatly reduce the parts by weight ratio of silicon, iron, copper, zinc, so that aluminium-alloy pipe of the present invention with the environment of contact with sea water under, be difficult for producing pitting attack, thereby improved the sea water corrosion resistant of aluminium-alloy pipe of the present invention.Owing to do not contain the chromium element in the raw material of aluminium alloy capable of resisting corrosion of sea water pipe of the present invention, avoided intermetallic compound to separate out the generation of phenomenon at intergranular, thereby improved the anti intercrystalline corrosion performance of aluminium-alloy pipe again.Secondly, owing to compare with the raw material of aluminium-alloy pipe in the background technology, reduce the content of magnesium elements in the raw material, not only can improve the cold deformation processing characteristics of aluminium-alloy pipe, can also make magnesium in aluminum substrate with single α (Mg ₂Al ₃) exist mutually, avoided second-phase β (Mg ₂Al ₃) separate out, reduced Susceptibility To Intergranular Corrosion and the Sensitivity of Stress Corrosion of aluminium alloy.This shows that the sea water corrosion resistant of aluminium-alloy pipe of the present invention under the contact with sea water environment is good, long service life.

Embodiment

Embodiment one

Choose first the raw material of following parts by weight:

0.6 part of magnesium ingot, 98.5 parts of aluminium ingots.In the described aluminium ingot: the content of silicon is that the content of 0.075 (weight) %, iron is that the content of 0.14 (weight) %, copper is that the content of 0.004 (weight) %, zinc is 0.0035 (weight) %.In the described magnesium ingot, the weight content of magnesium 〉=99.8%.

Then, it is in 730 ℃ the smelting furnace that aluminium ingot is dropped into temperature, makes it be fused into melt.

Add again magnesium ingot, stirred 10 minutes minutes.

Afterwards, the melt temperature in the smelting furnace is risen to 740 ℃.Meanwhile, according to the ratio adding Al rare earth alloy of 0.3 kilogram Al rare earth alloy/ton melt, and stirred 5 minutes, melt is carried out the stove endomorphism process.

Afterwards, the melt spray refining powder take argon gas as carrier in the smelting furnace is removed hydrogen and aluminum oxide impurity in the melt; Refining powder wherein be Yongan, Jiangxi Province extraordinary metallurgical material company limited produce dust 4 ^#The agent of dusting.

Afterwards, melt in the stove is put into chute, and when putting into chute, according to 1.2 m/mins speed, the adding diameter is 9 millimeters aluminium titanium boron wire, and melt is carried out thinning processing.In the described aluminium titanium boron wire: the content of titanium is 4.5 (weight) %, and the content of boron is 0.8 (weight) %, and the content of aluminium is 94.7 (weight) %.

Afterwards, will put into online degasification tank through the melt of thinning processing, and to the melt blowing argon gas in the degasification tank, further remove hydrogen and aluminum oxide impurity in the melt, carry out online argon gas refining.

Afterwards, with 40 orders and 60 purpose ceramic filter plates the melt through online argon gas refining is carried out the twin-stage ceramic filter successively, melt is carried out purifying treatment.

Afterwards, will become aluminium alloy bars through the melt casting that thinning processing is crossed.

Afterwards, it is in 475 ℃ the homogeneous furnace that aluminium alloy bars is placed temperature, and after constant temperature under this temperature keeps 240 minutes, makes it naturally cool to room temperature, and aluminium alloy bars is carried out homogenization treatment.

Afterwards, will be squeezed into pipe through the aluminium alloy bars of homogenization treatment with extrusion machine.

Afterwards, with drawbench the pipe cold-drawn is become aluminium-alloy pipe.

At last, place aluminium-alloy pipe in the aging oven and be heated to 160 ℃, and constant temperature kept 120 minutes under this temperature, obtained the aluminium alloy capable of resisting corrosion of sea water pipe.

Embodiment two

Choose first the raw material of following parts by weight:

1.2 parts of magnesium ingots, 97.9 parts of aluminium ingots.In the described aluminium ingot: the content of silicon is that the content of 0.06 (weight) %, iron is that the content of 0.12 (weight) %, copper is that the content of 0.0035 (weight) %, zinc is 0.004 (weight) %.In the described magnesium ingot, the weight content of magnesium 〉=99.8%.

Then, it is in 741 ℃ the smelting furnace that aluminium ingot is dropped into temperature, makes it be fused into melt.

Add again magnesium ingot, stirred 12 minutes minutes.

Afterwards, the melt temperature in the smelting furnace is risen to 746 ℃.Meanwhile, according to the ratio adding Al rare earth alloy of 0.5 kilogram Al rare earth alloy/ton melt, and stirred 8 minutes, melt is carried out the stove endomorphism process.

Afterwards, the melt spray refining powder take argon gas as carrier in the smelting furnace is removed hydrogen and aluminum oxide impurity in the melt.Refining powder wherein be Yongan, Jiangxi Province extraordinary metallurgical material company limited produce dust 4 ^#The agent of dusting.

Afterwards, melt in the stove is put into chute, and when putting into chute, according to 1.4 m/mins speed, the adding diameter is 9.3 millimeters aluminium titanium boron wire, and melt is carried out thinning processing.In the described aluminium titanium boron wire: the content of titanium is 4.9 (weight) %, and the content of boron is 1.1 (weight) %, and the content of aluminium is 94 (weight) %.

Afterwards, will put into online degasification tank through the melt of thinning processing, and to the melt blowing argon gas in the degasification tank, further remove hydrogen and aluminum oxide impurity in the melt, carry out online argon gas refining.

Afterwards, with 40 orders and 60 purpose ceramic filter plates the melt through online argon gas refining is carried out the twin-stage ceramic filter successively, melt is carried out purifying treatment.

Afterwards, will become aluminium alloy bars through the melt casting that thinning processing is crossed.

Afterwards, it is in 490 ℃ the homogeneous furnace that aluminium alloy bars is placed temperature, and after constant temperature under this temperature keeps 250 minutes, makes it naturally cool to room temperature, and aluminium alloy bars is carried out homogenization treatment.

Afterwards, will be squeezed into pipe through the aluminium alloy bars of homogenization treatment with extrusion machine.

Afterwards, with drawbench the pipe cold-drawn is become aluminium-alloy pipe.

At last, place aluminium-alloy pipe in the aging oven and be heated to 172 ℃, and constant temperature kept 140 minutes under this temperature, obtained the aluminium alloy capable of resisting corrosion of sea water pipe.

Embodiment three

Choose first the raw material of following parts by weight:

1.8 parts of magnesium ingots, 99.2 parts of aluminium ingots.In the described aluminium ingot: the content of silicon is that the content of 0.045 (weight) %, iron is that the content of 0.11 (weight) %, copper is that the content of 0.002 (weight) %, zinc is 0.003 (weight) %.In the described magnesium ingot, the weight content of magnesium 〉=99.8%.

Then, it is in 750 ℃ the smelting furnace that aluminium ingot is dropped into temperature, makes it be fused into melt.

Add again magnesium ingot, stirred 15 minutes minutes.

Afterwards, the melt temperature in the smelting furnace is risen to 760 ℃.Meanwhile, according to the ratio adding Al rare earth alloy of 0.8 kilogram Al rare earth alloy/ton melt, and stirred 10 minutes, melt is carried out the stove endomorphism process.

Afterwards, the melt spray refining powder take argon gas as carrier in the smelting furnace is removed hydrogen and aluminum oxide impurity in the melt.Refining powder wherein be Yongan, Jiangxi Province extraordinary metallurgical material company limited produce dust 4 ^#The agent of dusting.

Afterwards, melt in the stove is put into chute, and when putting into chute, according to 1.6 m/mins speed, the adding diameter is 9.5 millimeters aluminium titanium boron wire, and melt is carried out thinning processing.In the described aluminium titanium boron wire: the content of titanium is 5.5 (weight) %, and the content of boron is 1.3 (weight) %, and the content of aluminium is 93.2 (weight) %.

Afterwards, will put into online degasification tank through the melt of thinning processing, and to the melt blowing argon gas in the degasification tank, further remove hydrogen and aluminum oxide impurity in the melt, carry out online argon gas refining.

Afterwards, with 40 orders and 60 purpose ceramic filter plates the melt through online argon gas refining is carried out the twin-stage ceramic filter successively, melt is carried out purifying treatment.

Afterwards, will become aluminium alloy bars through the melt casting that thinning processing is crossed.

Afterwards, it is in 500 ℃ the homogeneous furnace that aluminium alloy bars is placed temperature, and after constant temperature under this temperature keeps 260 minutes, makes it naturally cool to room temperature, and aluminium alloy bars is carried out homogenization treatment.

Afterwards, will be squeezed into pipe through the aluminium alloy bars of homogenization treatment with extrusion machine.

Afterwards, with drawbench the pipe cold-drawn is become aluminium-alloy pipe.

At last, place aluminium-alloy pipe in the aging oven and be heated to 180 ℃, and constant temperature kept 180 minutes under this temperature, obtained the aluminium alloy capable of resisting corrosion of sea water pipe.

Claims (4)

1. aluminium alloy capable of resisting corrosion of sea water pipe is characterized in that comprising the raw material of following parts by weight:

0.6～1.8 part in magnesium;

97.16～99.36 parts in aluminium;

In the described aluminium: the content of silicon less than the content of 0.08 (weight) %, iron less than the content of 0.15 (weight) %, copper less than the content of 0.005 (weight) %, zinc less than 0.005 (weight) %; Described magnesium and aluminium are respectively magnesium ingot and aluminium ingot;

First aluminium ingot is dropped into temperature and be in 730 ℃～750 ℃ the smelting furnace, make it be fused into melt;

Add again magnesium ingot, stirred 10 minutes～15 minutes;

Afterwards, the melt temperature in the smelting furnace is risen to 740 ℃～760 ℃; Meanwhile, according to the ratio adding Al rare earth alloy of 0.3 kilogram～0.8 kilogram Al rare earth alloy/ton melt, and stirred 5～10 minutes, melt is carried out the stove endomorphism process;

Afterwards, the melt spray refining powder take argon gas as carrier in the smelting furnace is removed hydrogen and aluminum oxide impurity in the melt; Refining powder wherein be Yongan, Jiangxi Province extraordinary metallurgical material company limited produce dust 4 ^#The agent of dusting.

Afterwards, melt in the stove is put into chute, and when putting into chute, according to 1.2～1.6 m/mins speed, the adding diameter is 9～9.5 millimeters aluminium titanium boron wire, and melt is carried out thinning processing; In the described aluminium titanium boron wire: the content of titanium is 4.5～5.5 (weight) %, and the content of boron is 0.8～1.3 (weight) %, and the content of aluminium is 93.2～94.3 (weight) %;

Afterwards, will put into online degasification tank through the melt of thinning processing, and to the melt blowing argon gas in the degasification tank, further remove hydrogen and aluminum oxide impurity in the melt, carry out online argon gas refining;

Afterwards, with 40 orders and 60 purpose ceramic filter plates the melt through online argon gas refining is carried out the twin-stage ceramic filter successively, melt is carried out purifying treatment;

Afterwards, will become aluminium alloy bars through the melt casting that thinning processing is crossed;

Afterwards, it is in 475 ℃～500 ℃ the homogeneous furnace that aluminium alloy bars is placed temperature, and after constant temperature under this temperature keeps 240 minutes～260 minutes, makes it be cooled to room temperature, and aluminium alloy bars is carried out homogenization treatment;

Afterwards, will be squeezed into pipe through the aluminium alloy bars of homogenization treatment;

Afterwards, the pipe cold-drawn is become aluminium-alloy pipe;

At last, aluminium-alloy pipe is heated to 160 ℃～180 ℃, and constant temperature kept 120 minutes～180 minutes under this temperature, obtained the aluminium alloy capable of resisting corrosion of sea water pipe.

2. aluminium alloy capable of resisting corrosion of sea water pipe according to claim 1 is characterized in that in the described aluminium ingot weight content of aluminium 〉=99.7%.

3. aluminium alloy capable of resisting corrosion of sea water pipe according to claim 1 is characterized in that in the described magnesium ingot weight content of magnesium 〉=99.8%.

4. aluminium alloy capable of resisting corrosion of sea water pipe according to claim 1 is characterized in that the purity of described argon gas 〉=99.99 % by weight.