CN1390968A - Complex flame-retarding and modifying process for Mg alloy - Google Patents

Complex flame-retarding and modifying process for Mg alloy Download PDF

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Publication number
CN1390968A
CN1390968A CN 02110326 CN02110326A CN1390968A CN 1390968 A CN1390968 A CN 1390968A CN 02110326 CN02110326 CN 02110326 CN 02110326 A CN02110326 A CN 02110326A CN 1390968 A CN1390968 A CN 1390968A
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retarding
alloy
flame
magnesium alloy
complex flame
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CN 02110326
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CN1208489C (en
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耿浩然
亓效刚
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Shandong University
University of Jinan
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Shandong University
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Abstract

A fire-retarding and modifying technology for Mg alloy includes smelting the cast Mg alloy under the covering protection of flux, adding fire-retarding modifier, stirring, removing float slags and covering agent, blowing argon gas while stirring, inocualting at 710-770 deg.c and casting. Its advantages are not oxidizing combustion in atmosphere under 800 deg.C, and fine alloy structure.

Description

A kind of complex flame-retarding and modifying process that is used for magnesium alloy
1. technical field
The invention belongs to metal material field, specially refer to a kind of complex flame-retarding and modifying process that is used for magnesium alloy.
2. background technology
In the magnesium alloy smelting process, because the very easily oxidizing fire of magnesium must be taked sfgd. to liquid magnesium alloy in the melting and before the cast, the main at present method that adopts has protection flux-covering and gas protection method.The flux protection method is to adopt the low melting component flux of certain ingredients, and this flux melts becomes liquid under lower temperature, spreads out at the magnesium alloy liquid level, thereby has stoped magnesium liquid to play a protective role with contacting of air.The flux protection method causes the pollution of liquid magnesium alloy easily, makes that inclusion increases in the foundry goods, corrodes production unit, contaminate environment.Gas protection method is at surface coverage one deck rare gas element of liquid magnesium alloy or can generates the gas of dense oxidation film with reactive magnesium, thereby makes the oxygen in the liquation secluding air, and the main shielding gas of employing has SF 6, SO 2, CO 2, Ar, N etc.SF 6The gas shield effect is better, but has following problem: (1) contaminate environment, SF 6The use of gas can produce SO 2, SF 4Deng toxic gas, SF 6Effect to Global warming is CO 224900 times; (2) equipment complexity.Complicated gas mixing device and tightness system need be arranged, from the smelting furnace to the pouring furnace, need complicated conveying equipment; (3) etching apparatus, the work-ing life of significantly reducing crucible.Therefore, the new liquid magnesium alloy resist technology of research is a reality and significant work.Forefathers research thinks that metallic beryllium has provide protection to liquid magnesium alloy, but when adding metallic beryllium protection liquid magnesium alloy separately, the beryllium amount that adds fire-retardant needs makes foundry goods produce hot tearing easily, alligatoring alloy structure and worsen material property.
The rotten purpose of magnesium alloy smelting is the tissue morphology that changes magnesium alloy, and this technology has bigger influence, and the oxide inclusion in the magnesium liquid is also had certain influence the crystal grain that reduces alloy, the mechanical property of improving material.Studies show that,, adopt zirconium to go bad and handle to have good grain refining effect for the magnesium alloy that does not contain Al.Can adopt carbonaceous to breed method to Mg-Al class alloy, its action principle is that the carbide in the magnesium liquid at high temperature decomposes and learns reaction with alloy liquefaction and generates AlC 4, this compound can play the effect of external nucleus and make the grain refining of magnesium alloy, adds C 2Cl 6Be one of technological measure, adopt argon gas to mix the processing method that adds high pure carbon powder and also obtained significantly modification effect.But,, make complex manufacturing, the action effect instability because the insoluble of carbon in magnesium adds very difficulty of carbon in liquid magnesium alloy.
3. summary of the invention
The objective of the invention is provides a kind of and is applicable in order to overcome above-mentioned the deficiencies in the prior art
Oxidizing fire when preventing magnesium alloy smelting, again aluminiferous magnesium alloy had pollution-free, effective, the low-cost complex flame-retarding and modifying process of organizing the modifying-refining effect.
The present invention realizes in the following manner: a kind of complex flame-retarding and modifying process that is used for magnesium alloy may further comprise the steps:
(1) magnesium-aluminum series alloy is fused into liquid under No. 2 flux covering protections;
(2) add the complex flame-retarding and modifying agent, stir, the flame-retarding and modifying agent is melted in alloy liquid after, take flux off No. 2;
(3) doing 3-10 minute blowing with the rare gas element of dehydration stirs;
(4) calmness of carrying out 5-15 minute in 710-770 ℃ of temperature range is bred, and can obtain the magnesium alloy liquation that purifies, do not burn, goes bad.
The complex flame-retarding and modifying agent that adds in the above-mentioned steps (2) is made up of barium, strontium, beryllium and aluminium element, and the weight percent of each element is respectively: barium 3-10%, strontium 3-10%, beryllium 0.5-3%, aluminium 77-93%; The add-on of complex flame-retarding and modifying agent by the 0.1-3% of processing magnesium alloy weight; The described rare gas element of step (3) is the argon gas or the nitrogen of dehydration.
In the flame-retarding and modifying agent, beryllium and barium have the surfactivity effect, their richnesses are gathered the surface in liquid magnesium alloy, the oxide film that generates forms fine and close complex oxide film with the magnesium oxide on alloy liquid surface, stoped Sauerstoffatom further to be invaded in the alloy liquid, prevented that magnesium liquid is very easy to the oxidizing fire that produces, thereby reached fire-retardant purpose.Adopt barium, beryllium, strontium and aluminium to form the complex flame-retarding and modifying agent, both can form fine and close complex oxide film at the magnesium alloy molten surface, realize liquid magnesium alloy in atmosphere 800 ℃ do not produce effect of combustion below the temperature, strontium in the alterant and barium have the magnesium alloy of change crystal growth characteristic simultaneously, thereby realized modification effect to magnesium-aluminium phase constitution, refinement crystal grain, improved the metallurgical quality and the part performance of magnesium alloy liquation.The use of barium has reduced the consumption poisonous and beryllium that price is more expensive in the flame-retarding and modifying agent, has overcome the detrimentally affect that excessive beryllium causes material.Also strengthened the flame retardant effect of beryllium.Barium in this fire retardant adopts hot reducing method directly to be produced by barium salt, with adopting the method that directly adds barium metal to compare, and aluminium-barium fire retardant with low cost.The complex flame-retarding and modifying agent in use can not pollute environment, through the flame-retarding and modifying agent handle magnesium alloy realized the production process of green cleaningization.Be no less than 7 hours the rotten working lipe of this flame-retarding and modifying agent, and repeatedly remelted alloy liquid still has flame retardant effect, has long-lasting.
The present invention has adopted the barium of non-environmental-pollution and beryllium as the ignition-proof element agent, makes alterant element with strontium and barium, stirs the action effect of strengthening alterant and purifies alloy liquid with the blowing of anhydrous inert gas, stablizes its modification effect to leave standstill to breed.The present invention can prevent the burning of common working condition state magnesium liquid, and modification effect is obviously stablized, and remelting is good, and production cost is low.
4. embodiment
Embodiment 1
The AZ91 cast magnesium alloys (9%Al, 1%Zn, 0.15%Mn, the surplus Mg of being) of the national trade mark is molten into liquid under the protection that No. 2 flux (38-46% magnesium chloride, 34-40% Repone K, 5-8% bariumchloride, 3-5% Calcium Fluoride (Fluorspan)) cover, alloy melting carries out in resistance furnace.Add 0.2% the complex flame-retarding and modifying agent of forming by 8% barium, 1% beryllium, 10% strontium and 91% aluminium, stir alloy liquid, take slag and No. 2 flux off, and then stir with the blowing that the argon gas of dehydration was done 5 minutes, afterwards, near 730 ℃ of temperature, carry out leaving standstill in 7 minutes breeding, last, with the alloy liquid casting metal type of skimming.Use is the result show, after flame-retarding and modifying was handled, the ZA91 magnesium alloy did not burn under 770 ℃ temperature.Cover melting technology relatively with traditional flux, owing to reduced oxidation and the flux slag inclusion obviously improves casting quality, the utilization ratio of material also increases, and has alleviated the pollution of flux to environment and equipment.After rotten the processing, the intensity of ZA91 magnesium alloy materials, unit elongation and toughness ratio are improved when being untreated, and can reach: tensile strength 180MPa, unit elongation 5.2%, impelling strength 28J/cm 2, Brinell hardness 58.
Embodiment 2
The AZ63 cast magnesium alloys of the national trade mark (6%Al, 3%Zn, 0.35%Mn, surplus be Mg) is fused into liquid under the protection that No. 2 flux covers, melting is carried out in resistance furnace.Add 0.5% the complex flame-retarding and modifying agent of forming by 6% barium, 1% beryllium, 6% strontium and 87% aluminium, stir alloy liquid, take slag and No. 2 flux off, and then stir with the blowing that the nitrogen of dehydration was done 5 minutes, afterwards, near 750 ℃ of temperature, carry out 5 minutes leave standstill and breed, last, with the alloy liquid casting metal type of skimming.The melting result shows that after flame-retarding and modifying was handled, the point of ignition temperature of ZA63 liquid magnesium alloy can be brought up to 790 ℃.Cover melting technology relatively with traditional flux,, also alleviated the pollution of flux environment because novel process has reduced oxidation and the flux slag inclusion obviously improves casting quality.Rotten intensity, unit elongation and the toughness of handling than the AZ63 magnesium alloy materials that is untreated is improved, and can reach: tensile strength 160MPa, unit elongation 6%, impelling strength 23J/cm 2, Brinell hardness 64.
To the AZ63 alloy liquid insulation 6 hours handled through flame-retarding and modifying or after carrying out three remeltings and handling, combustion phenomena does not still appear in 780 ℃ alloy liquid, alloy material has kept original modification effect substantially.It is long-lasting to show that the flame-retarding and modifying effect has.

Claims (4)

1. complex flame-retarding and modifying process that is used for magnesium alloy is characterized in that may further comprise the steps:
(1) magnesium one aluminum series alloy is fused into liquid under No. 2 flux covering protections;
(2) add the complex flame-retarding and modifying agent, stir, the flame-retarding and modifying agent is melted in alloy liquid after, take flux off No. 2;
(3) doing 3-10 minute blowing with the dehydration rare gas element stirs;
(4) calmness of carrying out 5-15 minute in 710-770 ℃ of temperature range is bred, and can obtain the magnesium alloy liquation that purifies, do not burn, goes bad.
2. according to the described complex flame-retarding and modifying process that is used for magnesium alloy of claim 1, the complex flame-retarding and modifying agent that it is characterized in that adding in the step (2) is made up of barium, strontium, beryllium and aluminium element, and the weight percent of each element is respectively: barium 3-10%, strontium 3-10%, beryllium 0.5-3%, aluminium 77-93%.
3. according to the described complex flame-retarding and modifying process that is used for magnesium alloy of claim 1, the add-on that it is characterized in that complex flame-retarding and modifying agent in the step (2) by the 0.1-3% of processing magnesium alloy weight.
4. complex flame-retarding and modifying process according to claim 1 is characterized in that argon gas or the nitrogen of the described rare gas element of step (3) for dehydration.
CN 02110326 2002-05-13 2002-05-13 Complex flame-retarding and modifying process for Mg alloy Expired - Fee Related CN1208489C (en)

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Application Number Priority Date Filing Date Title
CN 02110326 CN1208489C (en) 2002-05-13 2002-05-13 Complex flame-retarding and modifying process for Mg alloy

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Application Number Priority Date Filing Date Title
CN 02110326 CN1208489C (en) 2002-05-13 2002-05-13 Complex flame-retarding and modifying process for Mg alloy

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CN1390968A true CN1390968A (en) 2003-01-15
CN1208489C CN1208489C (en) 2005-06-29

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100337775C (en) * 2004-10-29 2007-09-19 中国科学院金属研究所 Method for producing large-sized blank of wrought magnesium alloys
CN105671320A (en) * 2016-03-30 2016-06-15 河北工业大学 Recycling method of foamed magnesium
CN105886816A (en) * 2014-05-09 2016-08-24 重庆硕龙科技有限公司 Continuous flux smelting method of magnesium and magnesium alloys and device thereof

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100337775C (en) * 2004-10-29 2007-09-19 中国科学院金属研究所 Method for producing large-sized blank of wrought magnesium alloys
CN105886816A (en) * 2014-05-09 2016-08-24 重庆硕龙科技有限公司 Continuous flux smelting method of magnesium and magnesium alloys and device thereof
CN105671320A (en) * 2016-03-30 2016-06-15 河北工业大学 Recycling method of foamed magnesium

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Address after: 250061, No. ten, No. 73, Lixia District, Ji'nan City, Shandong Province

Co-patentee after: University of Jinan

Patentee after: Shandong University

Address before: 250061, No. ten, No. 73, Lixia District, Ji'nan City, Shandong Province

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