CN105256191A - Material avoiding large grains in aluminum alloy and preparation method - Google Patents
Material avoiding large grains in aluminum alloy and preparation method Download PDFInfo
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- CN105256191A CN105256191A CN201510770006.1A CN201510770006A CN105256191A CN 105256191 A CN105256191 A CN 105256191A CN 201510770006 A CN201510770006 A CN 201510770006A CN 105256191 A CN105256191 A CN 105256191A
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Abstract
The invention relates to a material avoiding large grains in aluminum alloy and a preparation method. The ingredients are composed of, by weight, magnesium of 0.58-0.61%, carbon of 0.03-0.035%, silicon of 0.75-0.78%, manganese of 0.30-0.35%, chromium of 0.1-0.15%, copper of 0.2-0.24%, iron of 0.2-0.4%, nickel of 0.1-0.3%, cobalt of 0.01-0.03%, cerium of 0.01-0.03%, titanium of 0.03-0.05%, vanadium of 0.001-0.0015% and the balance aluminum. Small grains can be better formed in aluminum alloy structures, and grain growth can be resisted. Through the preparation process, the uniformity of the organizational structure is guaranteed.
Description
Technical field
The invention belongs to aluminium alloy preparation field, refer to especially a kind of prevent aluminium alloy from occurring large grain size material and preparation method.
Background technology
Because aluminium alloy have lightweight, intensity is high and corrosion resistant advantage, has been widely used in the fields such as Rail car manufacture, machinery and building.In order to alleviate the weight of the finished product, the aluminium profile material now used is thin-walled, the beginning such as hollow, and for the aluminium alloy used as sheet material, existing production method is mainly manufactured by techniques such as extruding, but in extrusion process, the deflection of aluminum alloy blank, stress and heat up large, thus crystal grain can occur in quenching process regrow problem, and grain growing is too fast and form uneven coarse grain.Such aluminum alloy organization's structure, all has a great impact the mechanical property of the finished product, anti-fatigue performance and face corrosive nature.
Aluminium alloy how can be suppressed to be processed into the crystal grain regrowth in section bar process, and improving small grains in in-house ratio, to ensure aluminum alloy organization's consistent internal structure, is one of major subjects of those skilled in the art.
Summary of the invention
The object of this invention is to provide a kind of prevent aluminium alloy from occurring large grain size material and preparation method, by the technical program, the crystal grain of aluminium alloy can be made tiny and homogeneous microstructure, improve the performance of product.
The present invention is achieved by the following technical solutions:
A kind of material preventing aluminium alloy from occurring large grain size, its composition is by weight percentage, the aluminium of the cobalt of the iron of the chromium of the silicon of the magnesium of 0.58-0.61%, the carbon of 0.03-0.035%, 0.75-0.78%, the manganese of 0.30-0.35%, 0.1-0.15%, the copper of 0.2-0.24%, 0.2-0.4%, the nickel of 0.1-0.3%, 0.01-0.03%, the cerium of 0.01-0.03%, the titanium of 0.03-0.05%, the vanadium of 0.001-0.0015% and surplus.
Described preparation method is:
Batching, be that the aluminium of the cobalt of the iron of the chromium of the silicon of the magnesium of 0.58-0.61%, the carbon of 0.03-0.035%, 0.75-0.78%, the manganese of 0.30-0.35%, 0.1-0.15%, the copper of 0.2-0.24%, 0.2-0.4%, the nickel of 0.1-0.3%, 0.01-0.03%, the cerium of 0.01-0.03%, the titanium of 0.03-0.05%, the vanadium of 0.001-0.0015% and surplus carries out calculating batching by weight percentage;
Melting, is undertaken being smelted into liquid and being incubated 1-2 hour by above-mentioned batching, carries out constant temperature casting, adopt and at the uniform velocity lower the temperature into aluminum alloy ingot in temperature-fall period;
Quenching, carries out constant temperature extruding in 1-2 hour by aluminum alloy ingot at the quenching furnance inside holding of 520 ± 20 DEG C, and extrusion speed at 1.5-2.5 m/min, and adopts water liquid to quench and air blast quenching.
Described cooling rate of at the uniform velocity lowering the temperature maintains 15-20 DEG C/min.
Described quenching process divides two stages, is first that water liquid is quenched to 250-280 DEG C, then carries out air blast quenching to room temperature.
The present invention's beneficial effect is compared with the existing technology:
By adding titanium and v element in the technical program, the crystal grain of aluminum alloy organization inside better can be realized tiny and resist the growth of crystal grain; And by preparation technology, ensure that the even of weave construction.
Embodiment
Describe technical scheme of the present invention in detail below by way of specific embodiment, should be understood that, it is limitation of the present invention that following specific embodiment only can be used for explaining the present invention and can not being used for explanation.
Add carbon in the inventive solutions and better can promote ferro element fusing at aluminium alloy, improve dense structure's property, prevent excessive grain growth.
Embodiment 1
Described preparation method is:
Batching, be by weight percentage, the magnesium of 0.58%, the carbon of 0.03%, 0.75% silicon, 0.30% manganese, 0.1% chromium, 0.2% copper, 0.2% iron, 0.1% nickel, 0.01% cobalt, 0.01% cerium, the titanium of 0.03%, the vanadium of 0.001% and surplus aluminium carry out calculating batching;
Melting, is undertaken being smelted into liquid by above-mentioned batching and is incubated 1 hour, carrying out constant temperature casting, adopts cooling rate to maintain 15-20 DEG C/min and at the uniform velocity lower the temperature into aluminum alloy ingot in temperature-fall period;
Quenching, carries out constant temperature extruding in 1 hour by aluminum alloy ingot at the quenching furnance inside holding of 520 ± 20 DEG C, and extrusion speed at 1.5-2.5 m/min, and adopts water liquid to quench and air blast quenching; First be that water liquid is quenched to 250-280 DEG C, then carry out air blast quenching to room temperature.
Embodiment 2
Described preparation method is:
Batching, be by weight percentage, the magnesium of 0.61%, the carbon of 0.035%, 0.78% silicon, 0.35% manganese, 0.15% chromium, 0.24% copper, 0.4% iron, 0.3% nickel, 0.03% cobalt, 0.03% cerium, the titanium of 0.05%, the vanadium of 0.0015% and surplus aluminium carry out calculating batching;
Melting, is undertaken being smelted into liquid by above-mentioned batching and is incubated 1.5 hours, carrying out constant temperature casting, adopts cooling rate to maintain 15-20 DEG C/min and at the uniform velocity lower the temperature into aluminum alloy ingot in temperature-fall period;
Quenching, carries out constant temperature extruding in 2 hours by aluminum alloy ingot at the quenching furnance inside holding of 520 ± 20 DEG C, and extrusion speed at 1.5-2.5 m/min, and adopts water liquid to quench and air blast quenching; First be that water liquid is quenched to 250-280 DEG C, then carry out air blast quenching to room temperature.
Embodiment 3
Described preparation method is:
Batching, be by weight percentage, the magnesium of 0.60%, the carbon of 0.03%, 0.75% silicon, 0.33% manganese, 0.12% chromium, 0.22% copper, 0.3% iron, 0.15% nickel, 0.015% cobalt, 0.02% cerium, the titanium of 0.45%, the vanadium of 0.0015% and surplus aluminium carry out calculating batching;
Melting, is undertaken being smelted into liquid by above-mentioned batching and is incubated 1.5 hours, carrying out constant temperature casting, adopts cooling rate to maintain 15-20 DEG C/min and at the uniform velocity lower the temperature into aluminum alloy ingot in temperature-fall period;
Quenching, carries out constant temperature extruding in 2 hours by aluminum alloy ingot at the quenching furnance inside holding of 520 ± 20 DEG C, and extrusion speed at 1.5-2.5 m/min, and adopts water liquid to quench and air blast quenching; First be that water liquid is quenched to 250-280 DEG C, then carry out air blast quenching to room temperature.
Claims (4)
1. the material preventing aluminium alloy from occurring large grain size, it is characterized in that: its composition is by weight percentage, the aluminium of the cobalt of the iron of the chromium of the silicon of the magnesium of 0.58-0.61%, the carbon of 0.03-0.035%, 0.75-0.78%, the manganese of 0.30-0.35%, 0.1-0.15%, the copper of 0.2-0.24%, 0.2-0.4%, the nickel of 0.1-0.3%, 0.01-0.03%, the cerium of 0.01-0.03%, the titanium of 0.03-0.05%, the vanadium of 0.001-0.0015% and surplus.
2. prevent aluminium alloy from occurring a material preparation method for large grain size, it is characterized in that:
Batching, be that the aluminium of the cobalt of the iron of the chromium of the silicon of the magnesium of 0.58-0.61%, the carbon of 0.03-0.035%, 0.75-0.78%, the manganese of 0.30-0.35%, 0.1-0.15%, the copper of 0.2-0.24%, 0.2-0.4%, the nickel of 0.1-0.3%, 0.01-0.03%, the cerium of 0.01-0.03%, the titanium of 0.03-0.05%, the vanadium of 0.001-0.0015% and surplus carries out calculating batching by weight percentage;
Melting, is undertaken being smelted into liquid and being incubated 1-2 hour by above-mentioned batching, carries out constant temperature casting, adopt and at the uniform velocity lower the temperature into aluminum alloy ingot in temperature-fall period;
Quenching, carries out constant temperature extruding in 1-2 hour by aluminum alloy ingot at the quenching furnance inside holding of 520 ± 20 DEG C, and extrusion speed at 1.5-2.5 m/min, and adopts water liquid to quench and air blast quenching.
3. the material preparation method preventing aluminium alloy extrusions from occurring large grain size according to claim 2, is characterized in that: described cooling rate of at the uniform velocity lowering the temperature maintains 15-20 DEG C/min.
4. the material preparation method preventing aluminium alloy extrusions from occurring large grain size according to claim 2, is characterized in that: described quenching process divides two stages, is first that water liquid is quenched to 250-280 DEG C, then carries out air blast quenching to room temperature.
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Cited By (4)
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CN105349851A (en) * | 2015-11-12 | 2016-02-24 | 郭芙 | Material capable of preventing large grains from appearing in aluminum alloy |
CN106148773A (en) * | 2016-08-17 | 2016-11-23 | 任静儿 | A kind of material preventing aluminium alloy from big crystal grain occurring |
CN106191560A (en) * | 2016-08-17 | 2016-12-07 | 任静儿 | A kind of material preventing aluminium alloy from big crystal grain occurring and preparation method |
CN106191483A (en) * | 2016-08-17 | 2016-12-07 | 任静儿 | A kind of material preparation method preventing aluminium alloy from big crystal grain occurring |
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CN104294108A (en) * | 2014-10-29 | 2015-01-21 | 张超 | Composition for preventing aluminum alloy from causing large crystal grains and preparation method thereof |
CN104294107A (en) * | 2014-10-29 | 2015-01-21 | 张超 | Composition for preventing aluminum alloy from causing large crystal grains |
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CN103014436A (en) * | 2012-11-26 | 2013-04-03 | 姚富云 | Material capable of preventing large grains from being produced in aluminium alloy and preparation method thereof |
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CN104294107A (en) * | 2014-10-29 | 2015-01-21 | 张超 | Composition for preventing aluminum alloy from causing large crystal grains |
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CN105349851A (en) * | 2015-11-12 | 2016-02-24 | 郭芙 | Material capable of preventing large grains from appearing in aluminum alloy |
CN106148773A (en) * | 2016-08-17 | 2016-11-23 | 任静儿 | A kind of material preventing aluminium alloy from big crystal grain occurring |
CN106191560A (en) * | 2016-08-17 | 2016-12-07 | 任静儿 | A kind of material preventing aluminium alloy from big crystal grain occurring and preparation method |
CN106191483A (en) * | 2016-08-17 | 2016-12-07 | 任静儿 | A kind of material preparation method preventing aluminium alloy from big crystal grain occurring |
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Application publication date: 20160120 |