CN102703778B

CN102703778B - La-Pr-containing zinc-aluminum alloy wire and manufacturing method thereof

Info

Publication number: CN102703778B
Application number: CN201210014737XA
Authority: CN
Inventors: 冯立新; 张敏燕; 张平则
Original assignee: Jiangsu Linlong New Materials Co Ltd
Current assignee: Jiangsu Linlong New Materials Co Ltd
Priority date: 2012-01-13
Filing date: 2012-01-13
Publication date: 2013-10-23
Anticipated expiration: 2032-01-13
Also published as: CN102703778A

Abstract

The invention relates to a multielement zinc-aluminum alloy wire which comprises the following components in percentage by weight: 15-69% of Al, 0.2-3% of Si, 0.1-5% of Mg, 0.01-0.7% of La, 0.01-0.2% of Pr (the total amount of the two rare-earth elements is 0.02-0.76%), at most 1% of microelements and the balance of Zn. The resistivity of the zinc-aluminum alloy wire is 2.0-6.0 mu omega.cm, the specific gravity of the zinc-aluminum alloy wire is 3.18-5.69 is g/cm<3>, and the elongation percentage of the zinc-aluminum alloy wire is 10-25%; and thus, the zinc-aluminum alloy wire can be widely used in ships, power supply towers, large-size storage tanks, underground pipelines, tunnel frames and other facilities, and has very wide application prospects.

Description

The Zn-Al alloy wire and the manufacture method thereof that contain La and Pr

Technical field

The present invention relates to a kind of polynary Zn-Al alloy wire and manufacture method thereof, especially relate to Zn-Al alloy wire and the manufacture method thereof of a kind of La of containing and Pr.

Background technology

As everyone knows, except the minority precious metal, metallic substance can be with surrounding medium generation chemical reaction and electrochemical reaction and is corroded.Metallic corrosion has become the maximum harm of large-scale steel structure building, has a strong impact on it and uses safety and life-span.In addition, the metallic surface is subjected to various mechanical effects and the wearing and tearing that cause are also very serious.A large amount of hardwares lost efficacy because corroding and wearing and tearing, and caused great waste and loss.According to some industrially developed country's statistics, annual steel account for 10% of steel ultimate production because of the loss of corroding and wearing and tearing cause, and the loss amount of money accounts for 2～4% of total value of production in national economy.Therefore, development protecting metallic surface and intensifying technology are the key subjects that various countries generally are concerned about.

Anti-corrosion method commonly used mainly adopts the method for chemical process and physical thermal metallize coating.Chemical process mainly refers to adopt anticorrosive coating coating etc., such as coat composed erosion shields such as inorganic or organic varnishes; And be used for the thermospray metallic coating of anticorrosion purpose, thermospray metal coating layer material commonly used is the zinc and zinc alloy silk in the market, its according to chemical composition difference be divided into: pure zinc silk, Zn-Al alloy wire ZnAl ₅, Zn-Al alloy wire ZnAl ₁₅Deng, they extensively are used in the fields such as antiseptic project, surface treatment, capacitor end surface metal spraying.They mainly contain two to the protection mechanism of ferrous materials: the one, have the buffer action that similarly stops corrosive medium with the paint spraying anticorrosion mechanism; the 2nd, have the anodic protection effect that realizes by the coated material self-sacrifice; therefore; the popularization and application on colliery, port and pier, large-sized civil steel building, bridge, high-speed railway, large ship and other large industrialized projects (such as petrochemical industry, electric power, ocean) of thermospray metallic coating and Coating Technique Used thereof has obtained excellent society and economic benefit.

In the above-mentioned thermospray metal coating layer material, pure zinc silk is because of low price, and production method simply and is widely used.Yet its intensity and hardness are low, and tensile strength is low, and when as the anticorrosion with painting material, strength of materials hardness is low, and material is partially soft, flexible distortion.And Zn-Al alloy wire such as ZnAl ₅, ZnAl ₁₅Deng because complex manufacturing, production cost and material price are higher, and the purer zinc silk of consumption is few during therefore as the anticorrosion with painting material.

In fact, another major cause of the less employing of Zn-Al alloy wire stretches exactly easily broken when producing filament and is difficult to carry out.Because the raising along with aluminium content, because because the increase of component gap causes that segregation phenomena increases, be difficult to guarantee its homogeneous microstructure, resistance to deformation increases, so aluminium content is higher, it is more difficult to be drawn into silk, thereby high aluminium content and drawing difficulty be the main bugbear of a preparation material, and more the development of the Zn-Al alloy wire of high aluminium content also has no report.

For this problem, the someone proposes, and rare earth element can significantly improve the physical and mechanical property of alloy in metal field, and rare earth element has obtained extensive concern in the research in corrosion prevention field with using.Such as Chinese patent CN1718836A, the cerium (Ce) that accounts for a material gross weight 0.05-0.3% is joined in Mg, the Al metal, make a kind of anticorrosive wire material sprayed with rare-earth aluminum-magnesium alloy, be used for the especially long-effective corrosion of hydro project gate of steel construction, obtained positive protection effect, but what it adopted is to add Rare Earth Elements Determination cerium (Ce), thereby has affected the further raising of silk material barrier propterty, is unfavorable for applying.And experiment shows, adopts similar technical scheme, approaches in limited time down such as content of rare earth, and for example when less than 0.08% the time, the rare earth role is extremely small; And when greater than 0.1% the time, it is not obvious again that rare earth rises to the continuation of zinc alloy intensity, and therefore, this technology is used very limited, also fails in the Zn-Al alloy wire of effective use heat metallize coating.

So still need a kind of low price on the market, have the saxonia metal wire material that be used for to make the fields such as anticorrosion with painting engineering that replaces traditional zinc silk of higher-strength.

Summary of the invention

Deficiency for zinc silk in the prior art or the existence of zinc-aluminium silk, the object of the present invention is to provide a kind of polynary thermospray Zn-Al alloy wire and manufacture method thereof, the polynary thermospray Zn-Al alloy wire that has not only successfully prepared high aluminium content, and successfully this material is sprayed at the surface of steel, obtained good preservative effect.

The invention provides a kind of polynary Zn-Al alloy wire, by weight percentage, its component is: aluminium Al:15%-69%; Silicon Si:0.2-3%; Magnesium Mg:0.1-5%; Lanthanum La:0.01-0.7%, praseodymium Pr:0.01-0.2%, the total amount of these two kinds of rare earth elements: 0.02-0.76%, and total amount is no more than 1% trace additives; Surplus is zinc Zn, and the resistivity of described Zn-Al alloy wire is 2.0-6.0 μ Ω cm, and the proportion of described Zn-Al alloy wire is 3.18-5.69g/cm ³, the unit elongation 10-25% of described Zn-Al alloy wire.

Preferably, the total amount of wherein said two kinds of rare earth elements: 0.30-0.72%, the resistivity of described Zn-Al alloy wire is 2.8-5.5 μ Ω cm, the proportion of described Zn-Al alloy wire is 3.50-4.94g/cm ³, the unit elongation 10-20% of described Zn-Al alloy wire.

Preferably, the diameter of wherein said Zn-Al alloy wire is 1.5-4.0mm, and the tensile strength of described Zn-Al alloy wire after 180-280 ℃ of annealing reached repeatedly drawing in 1.5-3 hour is 75-115Mpa.

Preferably, the mass ratio of wherein said two kinds of rare earth elements is La/Pr=2/1～9/1.

Preferably, wherein the mass ratio of each composition is:

Si/Mg＝4/5～7/5，

The total amount of two kinds of rare earth elements of Si/=5/1～50/1,

The total amount of two kinds of rare earth elements of Mg/=15/1～25/1.

Preferably, the composition of each component is respectively by weight percentage in the wherein said trace additives: Fe＜0.01%, Pb＜0.005%, Cd＜0.002%, Sn＜0.001%.

On the other hand, the present invention also provides a kind of method for preparing described Zn-Al alloy wire, weight percent according to described each component of Zn-Al alloy wire is got the raw materials ready, each component is made aluminium zinc by proportioning in smelting furnace, pour into the aluminium zinc rod by the deep-well forging type again, then, the aluminium zinc rod put into 350～450 ℃ electric furnace 4～8 hours, carrying out homogenizing processes, use again extrusion machine, at 380～420 ℃ of lower hot extrusion materials, make material pass through circular die, form the thick line base of diameter 4.5～8mm, with the thick line base in vacuum annealing furnace 180～280 ℃ annealing 1.5～3 hours, carry out again drawing, annealing, and then repeat successively above drawing, the step of annealing is until make the silk material of 1.5～4.0mm.

Preferably, wherein drawing process is as follows: the thick line base of diameter 4.5～8mm is stretched to diameter 4.0mm～7.0mm, and then annealing; Again with the wire stretching of 4.0mm～7.0mm to 3.5mm～6.0mm, and then annealing; At last with the wire stretching to 1.5 of 3.5mm～6.0mm～4.0mm.

Preferably, wherein the annealing temperature after each drawing is 180～230 ℃, and annealing time is 1.5～3 hours.

Preferably, wherein the drawing speed of each passage is 10～35mm/min, and draft temperature is 20～30 ℃.

Adopt technical scheme of the present invention, obtained the technique effect of highly significant, specific as follows:

The zinc of Zn-Al alloy wire provides extraordinary anodic protection, adds the oxidation that aluminium can reduce zinc in the zinc, improves the casting surface quality, and suppresses FeZn ₇The formation of frangible compounds, simultaneously aluminium can crystal grain thinning, improves tensile strength and the plasticity of zinc.And along with the raising of aluminium amount, the adhesivity of coating still keeps better, and hardness is higher, and wear resistance and erosion resistance are better.

The present invention is by adding La and two kinds of thuliums of Pr, except crystal grain thinning better, can also eliminate better other element such as ferro element to the deleterious effect of zinc alloy, thereby improve intensity and the plasticity of zinc alloy.

And, the present invention is by adding La and two kinds of thuliums of Pr, the increase that has overcome the component gap that causes owing to adding aluminium causes the defective that segregation phenomena increases, reduced better the surface tension on the new and old two-phase interface, also between crystal grain and aluminium alloy, formed surface-active film when having accelerated better nucleus growth speed, stoped the grain growth that generates, made the alloy structure refinement, guaranteed homogeneous microstructure, resistance to deformation increases.

And the present invention has improved the antioxidant property of thermal spraying material better by adding La and two kinds of thuliums of Pr, has suppressed better the formation speed of oxide film, has strengthened better the antistripping ability of oxide film.

And the present invention is by adding La and two kinds of thuliums of Pr, rare earth element in aluminium alloy can with oxygen, sulphur simultaneous reactions, can adsorb in a large number and dissolved hydrogen, more effectively reduce its hazardness, greatly reduce hydrogen content and the pin hole rate of aluminium.

At last, the present invention is by adding La and two kinds of thuliums of Pr, optimized better aluminium alloy interior metal crystalline structure, when having improved better the alloy structure corrosion resisting property, also greatly improved the physical and mechanical properties of alloy, guaranteed the processing and fabricating of silk material and the application in the construction, thoroughly overcome because the higher more difficult defective of silk that is drawn into of aluminium content.

Therefore, the present invention is by adding La and two kinds of thuliums of Pr, with respect to adding single rare earth element, impact on zinc alloy intensity is more obvious, and minimum of Rare-Earth Content of the present invention needs to add the technique effect that 0.02% of total amount namely can reach expection, this is very important to saving day by day rare rare earth resources, can greatly save production cost; On the other hand, the performance of Zn-Al alloy wire also can along with the continuation of content of rare earth is risen and more significantly improvement, overcome to add the single existing defective of rare earth element in the prior art fully.

Yet, the interpolation of rare earth metal total amount is not The more the better yet, the present invention is according to the composition of base mateiral, after repeatedly testing in a large number, screening, finally determined the optimum range of these two kinds of rare earth element total contents technique effect of the present invention to be improved further by a series of creative works.

Simultaneously, the contriver also finds, although any two or more rare earth adds the corrosion resistance that all can promote Zn-Al alloy wire in the Zn-Al alloy wire simultaneously in 17 kinds of rare earth elements, but neither all arbitrarily two or more rare earth elements add simultaneously the technique effect that all can play equal highly significant in the Zn-Al alloy wire to, this differs greatly with the derivation that can add in theory any two kinds of rare earth elements and all can reach identical technique effect.The present invention has finally determined lanthanum (La) by a series of creative works after repeatedly testing in a large number, screening, these two kinds of rare earth elements of praseodymium (Pr) and the optimum range when adding separately thereof, thus so that technique effect of the present invention has been realized optimizing.

On this basis, the contriver is also by after repeatedly testing in a large number, screening, finally determined optimum mass ratio between these two kinds of rare earth elements by a series of creative works, thereby the beneficial effect of two kinds of thuliums of above-mentioned adding is further got a promotion and optimized, reached best.

In addition, also added the silicon of certain content in the Zn-Al alloy wire that the present invention adopts, added a certain amount of silicon and can further improve the corrosive nature of Zn-Al alloy wire under high-temperature condition and lasting corrosion resistance.

Yet along with the raising of silicone content, the toughness of Zn-Al alloy wire descends to some extent, for this reason, also added a certain amount of Mg in the Zn-Al alloy wire of the present invention, the interpolation of Mg can be played the effect of further refinement oxide compound, while is crystal grain thinning further, has significantly improved the toughness of B alloy wire.

Simultaneously, the present invention comprises according to practical situation or does not comprise such as trace elements such as Fe, and this can improve the ability that coating opposing atomospheric corrosion, galvanic corrosion and airflow scouring corrode to a certain extent.

Further, the contriver finds the mass ratio that forms part by suitable each is set after repeatedly testing in a large number, screening, and can improve more significantly the ability such as anticorrosive of coating.Wherein, when Si/Mg=4/5～7/5, the best results of Mg refinement oxide compound and composite oxides thereof, when the total amount of two kinds of rare earth elements of Si/=5/1～50/1, rare earth element role in B alloy wire is best and can further reduce the negative impact that silicone content raises and brings, when the total amount of two kinds of rare earth elements of Mg/=15/1～25/1, the two formation to oxide compound has no significant effect, simultaneously can effectively remove wherein unnecessary free oxygen level, the fastness to rubbing of coating is improved greatly, the concentration class of alloy is improved greatly, thereby improve more significantly the resistance to corrosion of B alloy wire.

On the other hand, the method for preparing Zn-Al alloy wire provided by the invention by the improvement to drawing process, as all annealing, thereby has further solved in the drawing process the easily defective of fracture of wire after every time drawing.And the further selection of draft temperature and speed etc. is made the metal thermal spraying coating silk material that makes, have excellent sticking power, good physical mechanical property and solidity to corrosion.Manufacturing process provided by the invention is simple and direct, and product cost is moderate, and its construction cost appropriateness is conducive to apply.The technical problems such as the manufacturing cost that has solved present rare earth wire rod existence is expensive, barrier propterty is not enough, the construction application cost high, be difficult to apply.

In addition, adopt the very obvious technique effect of technical scheme another one of the present invention to be: the resistivity of described Zn-Al alloy wire is 2.0-6.0 μ Ω cm, and the proportion of described Zn-Al alloy wire is 3.18-5.69g/cm ³, the unit elongation 10-25% of described Zn-Al alloy wire.These excellent performances all are more than the B alloy wire under the equal conditions in the prior art far away, the interior microscopic that Zn-Al alloy wire of the present invention is described is organized very large variation has also been occured, although these micro-variations can't be described with the structure of Zn-Al alloy wire or the restriction of composition, but by further describing of above-mentioned performance perameter, those skilled in the art can know clearly that it is to the restriction effect of playing of Zn-Al alloy wire of the present invention.

In sum, Zn-Al alloy wire of the present invention has that intensity is large, hardness is high, the advantages such as low price, and alternative traditional zinc silk is used for the fields such as anticorrosion with painting engineering.And this rear earth zinc-aluminium alloy hot coating has excellent sticking power, good physical mechanical property and corrosion resisting property, and by experimental test, its average year erosion rate is significantly smaller than the coatings such as the aluminium zinc, zinc aluminium false alloy of thermospray zinc, aluminium low levels; Its anodic protection effect also has clear improvement than aluminium, other aluminum alloy heat metallize layers; Whole silk material process for machining and manufacturing is simple and direct, cost is lower, construction application cost appropriateness.

Adopt Zn-Al alloy wire of the present invention to do sacrificial anode and be sprayed at the steel and iron member top layer, can make member prolong 5～10 times work-ing life, therefore, this technology is widely used in naval vessel, power supply steel tower, large-scale storage tank, underground pipeline, in the facilities such as tunnel frame, has boundless application prospect.

Description of drawings

The polynary Zn-Al alloy wire of Fig. 1 the present invention and ZnAl ₁₅The polarization curve of silk spray-on coating.

Embodiment

Polynary Zn-Al alloy wire of the present invention, by weight percentage, its component is: aluminium Al:15%-69%; Silicon Si:0.2-3%; Magnesium Mg:0.1-5%; Lanthanum La:0.01-0.7%, praseodymium Pr:0.01-0.2%, the total amount of these two kinds of rare earth elements: 0.02-0.76%, and total amount is no more than 1% trace additives; Surplus is zinc Zn, and the resistivity of described Zn-Al alloy wire is 2.0-6.0 μ Ω cm, and the proportion of described Zn-Al alloy wire is 3.18-5.69g/cm ³, the unit elongation 10-25% of described Zn-Al alloy wire.

Of particular note, adopt the very important improvement of technical scheme of the present invention to be herein, the resistivity of described Zn-Al alloy wire is 2.0-6.0 μ Ω cm, and the proportion of described Zn-Al alloy wire is 3.18-5.69g/cm ³, the unit elongation 10-25% of described Zn-Al alloy wire.These excellent performances all are more than the B alloy wire under the equal conditions in the prior art far away, the interior microscopic that Zn-Al alloy wire of the present invention is described is organized very large variation has also been occured, although these micro-variations can't be described with the structure of Zn-Al alloy wire and/or the restriction of composition, but by further describing of above-mentioned performance perameter, those skilled in the art can know clearly that it is to the restriction effect of playing of Zn-Al alloy wire of the present invention.

Provide some preferred embodiments of each composition mass percent of the present invention below in conjunction with table 1, but the content of each composition of the present invention is not limited to listed numerical value in this table, for a person skilled in the art, can in table, rationally summarize and reasoning on the basis of listed numerical range fully.

Table 1: each composition accounts for mass percentage content (%) and the correlated performance parameter of gross weight

Preferably, wherein the mass ratio of each composition is:

Si/Mg＝4/5～7/5，

The total amount of two kinds of rare earth elements of Si/=12/1～36/1,

The total amount of two kinds of rare earth elements of Mg/=15/1～20/1.

Preferred, Si/Mg=4/5～7/5,

The total amount of at least two kinds of rare earth elements of Si/=20/1～25/1,

The total amount of at least two kinds of rare earth elements of Mg/=15/1～18/1.

In addition, the present invention also provides a kind of method for preparing described Zn-Al alloy wire, weight percent according to described each component of Zn-Al alloy wire is got the raw materials ready, each component is made aluminium zinc by proportioning in smelting furnace, pour into the aluminium zinc rod by the deep-well forging type again, then, the aluminium zinc rod put into 350～450 ℃ electric furnace 4～8 hours, carrying out homogenizing processes, use again extrusion machine, at 380～420 ℃ of lower hot extrusion materials, make material pass through circular die, form the thick line base of diameter 4.5～8mm, with the thick line base in vacuum annealing furnace 180～280 ℃ annealing 1.5～3 hours, carry out again drawing, annealing, and then repeat successively above drawing, the step of annealing is until make the silk material of 1.5～4.0mm.

Preferably, the thick line base of diameter 4.5～8mm is stretched to diameter 4.0mm～7.0mm, and then annealing; Again with the wire stretching of 4.0mm～7.0mm to 3.5mm～6.0mm, and then annealing; At last with the wire stretching to 1.5 of 3.5mm～6.0mm～4.0mm.

Preferably, wherein polynary Zn-Al alloy wire is 1.33 * 10 in vacuum tightness ^-2In 180-280 ℃ of annealing 1.5-3 hour, 350～500 tons extrusion machine was adopted in extruding in the vacuum oven of Pa.

The described Zn-Al alloy wire that adopts aforesaid method to obtain, diameter is 1.5-4.0mm, and the tensile strength of described Zn-Al alloy wire is 75-115Mpa, and concrete performance perameter is as shown in table 2 below:

Table 2: the diameter of Zn-Al alloy wire and the performance perameter of tensile strength

Diameter (mm)	Tensile strength (Mpa)
		1.5	75
1.8	82
		2.0	85
2.2	88
		2.5	92
2.8	97
		3.0	102
3.3	108
		3.8	111
4.0	115

The erosion resistance experimental result

Testing method

The spraying method of the polynary thermospray Zn-Al alloy wire of making is as described below.At first, matrix surface is carried out pre-treatment, slough surface oxide layer, expose unsalted surface.Pre-treatment can be processed by sand-blast.Then, adopt flame plating or arc spray process, the polynary thermospray Zn-Al alloy wire that will make with spray gun sprays on the pretreated matrix surface, is sprayed into coat-thickness 0.075～0.350mm.

1, the electro-chemical test of the spray-on coating of zinc-aluminium multicomponent alloy silk

(1) preparation of spraying sample

The matrix surface pre-treatment

Matrix adopting 20 ^#Steel generally adopts blasting craft to carry out surface treatment, and used sand is dry quartz sand or copper ore without earth, and granularity is 6～12 orders, and it has hard and the characteristics of corner angle are arranged.Air pressure is 5～6 * 10 during sandblast ⁵Pa.Nozzle is 15～20cm to the distance of workpiece surface, and jet angle is generally about 70 °, excessive or too smallly all can reduce sandblast efficient.Workpiece after sandblasting requires to reach even roughness, and metal luster is without rusty stain, stain and moisture.

Spraying

Adopt arc spraying, to being of a size of pretreated 20 of 150 * 150 * 3mm ^#The ZnAl that the polynary Zn-Al alloy wire that spraying is made on the steel plate and market are bought ₁₅, analyze its electrochemical properties in 3.5%NaCl solution.For the ease of analyzing, polynary Zn-Al alloy wire and ZnAl have under equal conditions been sprayed ₁₅The silk material to analyze under the equal conditions, sprays polynary Zn-Al alloy wire and spraying ZnAl ₁₅, the quality of its corrosive nature.

(2) electro-chemical test

The CHI660C electrochemical workstation that adopts Shanghai occasion China Instr Ltd. to produce carries out electro-chemical test to coating.Test condition is as follows:

Electrolytic solution: 3.5%NaCl solution;

Reference electrode: platinum electrode;

The sample that 150 * 150 * 3mm sample line after the spraying is cut into 3 * 3 * 3mm carries out electro-chemical test.

If the test knot as shown in Figure 1, Fig. 1 shows the electrochemistry curve of two kinds of different coating, and wherein

Reference numeral

1,2 represents respectively polynary Zn-Al alloy wire spray-on coating, ZnAl ₁₅The polarization curve of silk spray-on coating can find out clearly that from figure the polynary Zn-Al alloy wire spray-on coating of the present invention performance obviously is better than ZnAl ₁₅The silk spray-on coating.

For the clearer and more definite performance gap that contrasts between the two, following table 3 has been listed the polynary Zn-Al alloy wire of the present invention and ZnAl ₁₅The open circuit potential of silk spray-on coating and the contrast of corrosion electric current density can more clearly draw from table, and the polynary Zn-Al alloy wire spray-on coating of the present invention performance obviously is better than ZnAl ₁₅The silk spray-on coating.

Table 3: the open circuit potential of two kinds of different spray-on coatings and corrosion electric current density

In sum, the present invention is by to Zn-Al alloy wire, preparation technology's improvement, can form anti-corrosion, wear resistance good, the coating that gets togather with the matrix metallurgical junction.The improvement of any adaptation of carrying out on basis of the present invention does not all break away from thought of the present invention, all falls into the scope of protection of the invention.

Claims

1. polynary Zn-Al alloy wire, by weight percentage, its component is: aluminium Al:15%-69%; Silicon Si:0.2-3%; Magnesium Mg:0.1-5%; Lanthanum La:0.01-0.7%, praseodymium Pr:0.01-0.2%, the total amount of these two kinds of rare earth elements: 0.02-0.76%, and total amount is no more than 1% trace additives; Surplus is zinc Zn, and the resistivity of described Zn-Al alloy wire is 2.0-6.0 μ Ω cm, and the proportion of described Zn-Al alloy wire is 3.18-5.69g/cm ³, the unit elongation 10-25% of described Zn-Al alloy wire.

2. Zn-Al alloy wire as claimed in claim 1, the total amount of wherein said two kinds of rare earth elements: 0.30-0.72%, the resistivity of described Zn-Al alloy wire is 2.8-5.5 μ Ω cm, the proportion of described Zn-Al alloy wire is 3.50-4.94g/cm ³, the unit elongation 10-20% of described Zn-Al alloy wire.

3. Zn-Al alloy wire as claimed in claim 1, the diameter of wherein said Zn-Al alloy wire is 1.5-4.0mm, described Zn-Al alloy wire through 180-280 ℃ of annealing 1.5-3 hour and repeatedly the tensile strength after the drawing be 75-115MPa.

4. Zn-Al alloy wire as claimed in claim 1, the mass ratio of wherein said two kinds of rare earth elements is La/Pr=2/1～9/1.

5. Zn-Al alloy wire as claimed in claim 1, wherein the mass ratio of each composition is:

Si/Mg＝4/5～7/5，

The total amount of two kinds of rare earth elements of Si/=5/1～50/1,

The total amount of two kinds of rare earth elements of Mg/=15/1～25/1.

6. as according to Zn-Al alloy wire as described in the claim 1, the composition of each component is respectively by weight percentage in the wherein said trace additives: Fe＜0.01%, Pb＜0.005%, Cd＜0.002%, Sn＜0.001%.

7. method for preparing the described Zn-Al alloy wire of claim 1, weight percent according to described each component of Zn-Al alloy wire is got the raw materials ready, each component is made aluminium zinc by proportioning in smelting furnace, pour into the aluminium zinc rod by the deep-well forging type again, then, the aluminium zinc rod put into 350～450 ℃ electric furnace 4～8 hours, carrying out homogenizing processes, use again extrusion machine, at 380～420 ℃ of lower hot extrusion materials, make material pass through circular die, form the thick line base of diameter 4.5～8mm, with 180～280 ℃ of annealing 1.5～3 hours in vacuum annealing furnace of thick line base, carry out again drawing, annealing, and then repeat successively above drawing, the step of annealing is until make the silk material of 1.5～4.0mm.

8. method as claimed in claim 7, wherein drawing process is as follows: the thick line base of diameter 4.5～8mm is drawn to diameter 4.0mm～7.0mm, and then annealing; Again with the wire drawing of 4.0mm～7.0mm to 3.5mm～6.0mm, and then annealing; At last with the wire drawing to 1.5 of 3.5mm～6.0mm～4.0mm.

9. method as claimed in claim 8, wherein the annealing temperature after each drawing is 180～230 ℃, annealing time is 1.5～3 hours.

10. method as claimed in claim 8, wherein the drawing speed of each passage is 10～35mm/min, the drawing temperature is 20～30 ℃.