CN106148783B

CN106148783B - Anticorrosive high-strength deformation nanometer magnesium alloy and its preparation method and application

Info

Publication number: CN106148783B
Application number: CN201510151412.XA
Authority: CN
Inventors: 不公告发明人
Original assignee: Xu Wan Qiang
Current assignee: Xu Wan Qiang
Priority date: 2015-04-01
Filing date: 2015-04-01
Publication date: 2019-10-15
Anticipated expiration: 2035-04-01
Also published as: CN106148783A

Abstract

The present invention relates to anticorrosive high-intensitive deformation at room temperature nanometer magnesium alloys and its preparation method and application.By carrying out short route processing to particular category magnesium lithium alloy, it produces with the nanometer magnesium alloy that nanoscale richness lithium accumulation regions and nanoscale richness aluminium accumulation regions are distributed in rich magnesium matrix, wherein lithium atom percentage composition >=50-99% of nanoscale richness lithium accumulation regions, bulk averaged value range are 100-8000 cubic nanometer and volumn concentration range is 5-35%；Aluminium atom percentage composition >=20-99% of nanoscale richness aluminium accumulation regions, bulk averaged value range are 100-30000 cubic nanometer and volumn concentration range is 0-25%.At room temperature, being provided simultaneously with ultralight specific gravity, the polarization current in 0.1 mole of salt water can be down to 3 μ A/cm for this nanometer of magnesium alloy²Corrosion resistance, 100-250 kilonewton meter/kilogram ratio surrender the excellent properties combination of elongation percentage that is strong, reaching as high as 60% and good deformation performance, thus can be widely applied in mobile communication equipment, computer, camera, the vehicles, aerospace and defence product.

Description

Anticorrosive high-strength deformation nanometer magnesium alloy and its preparation method and application

Technical field

The present invention relates to a kind of new metallic materials and the preparation method and application thereof, more particularly, to a kind of anticorrosive, high Intensity, deformation at room temperature performance be good, ultralight nano-structure wrought magnesium alloy and its preparation method and application.

Background technique

The development of modern science and technology has important dependence and requirement to new metallic material, it is desirable that its is light-weight, intensity Height, anticorrosive, processability is good, easy to process.Mainly there is aluminium in the world, magnesium, three kinds of light metals of titanium, specific gravity is respectively 2.7, 1.74 and 4.5 grams/cc, wherein magnesium is most light.Magnesium alloy has relatively good ratio in these three alloy structure materials Intensity and Castability, still, (1) because its hexagonal lattice structure slip system is less, deformation at room temperature performance is low；(2) corrosion resistance Can be up to the present poor because one layer of fine and close protective film cannot be formed, and without a kind of sacrificial anode material can to it It is protected as zinc coat is to steel surface on surface.Therefore this two problems of magnesium alloy are to restrict it extensively all the time The bottleneck of application.

By the way that lithium is added to magnesium, magnesium lithium alloy is formed, can effectively solve the problem that the low problem of magnesium alloy deformation at room temperature performance.When When lithium content is less than 5Wt.% (weight percent), magnesium lithium alloy still keeps the hexagonal lattice structure (referred to as α phase) of magnesium；When being more than After 5Wt.%, magnesium hexagoinal lattice crystal structure starts body-centered cubic structure (β phase) more to slip system, that deformation at room temperature performance is good and turns Become；After more than 10.5Wt.%, it is completely converted into body-centered cubic structure.So working as lithium content for Binary Mg Li Alloy Less than 5Wt.%, for 5Wt.%-10.5Wt.% and be greater than 10.5Wt.% when, be respectively provided with single α phase, alpha+beta phase and single β Phase constitution.It is less that α phase contains lithium amount, has high rigidity and intensity (intensity is generally about equal to 3 times of Vickers hardnesses), but deformation performance Difference, and β phase is just the opposite, has soft, low-intensity but high deformation performance.So usual magnesium lithium alloy lithium content is higher, β phase content is higher in tissue, and intensity and hardness are lower, and plastically deformed performance is better.One or more other alloying elements are added To after Mg-Li alloy, ternary or polynary magnesium lithium alloy are formed, will cause the above-mentioned 5Wt.% and 10.5Wt.% lithium content of Li alloy Tissue critical line movement and other phases formation in the tissue.These magnesium lithiums based on alpha+beta phase or β phase constitution close For gold due to the presence of body-centered cubic crystal structure β phase, the magnesium alloy of deformation at room temperature performance opposite only hexagoinal lattice (α phase) is big Width improves, and room temperature elongation percentage may be up to 80% or more.So the appearance of this kind of magnesium lithium alloy efficiently solves magnesium alloy room temperature The low problem of deformation performance also further reduced magnesium alloy simultaneously as the specific gravity of lithium is very low (0.534 gram/cc) Specific gravity is to 1.30-1.65g/cm³.Thus, magnesium lithium alloy based on alpha+beta phase or β phase constitution has ultralight, high ratio modulus, excellent Ratio rigid, thermally conductive, conductive, outstanding absorption impact and damping performance, excellent electromagnetic shielding performance, weldability energy, good Good machining property and cold deformation and processability.

In general, magnesium lithium alloy in the world is mainly ternary and multicomponent alloy, preparation method and process route are as follows: (1) The raw material such as Mg, Li and other alloying elements and melting fusing are chosen, are melted in the electric furnace of protective atmosphere or clinker After refining or fusing, (2) are cast into the ingot of various shape size, and (3) ingot after high temperature homogenizing annealing is handled, directly passes through Bar, wire rod, plate, band, tubing and various profiles is made in the various thermal processing methods such as extruding, hot rolling, forging.

It is prepared through above-mentioned technical process, the ternary containing 7-16Wt.% lithium and multicomponent alloy profile are organized as alpha+beta phase Or the tissue based on β phase, its usual mean grain size size is in for 50-300 micron range, and Vickers hardness range is in 50- In 75HV, after being quenched, wherein some particular category alloy, hardness can reach 100HV or more, but through it is natural or artificial when After effect, hardness can gradually fall back to state before quenching.

Currently, it is common these two types alpha+beta phase or β phase constitution based on ternary and polynary magnesium lithium alloy, although solving magnesium The low problem of Alloy At Room Temperature deformation performance still since the chemical activity of lithium is high, causes original corrosion resistance to close with regard to poor magnesium Golden corrosion resistance further deteriorates, that is to say, that not only current magnesium lithium alloy does not have asking for solution magnesium alloy corrosion resistance difference Topic, renvoi deteriorates it more, becomes the alloy that corrosion resistance classification is worst in current all magnesium alloys, at the same intensity also into One step reduces.For example, typical LA141 magnesium lithium alloy tensile strength in room temperature is 132-166MPa, surrenders in magnesium lithium alloy Intensity is 106-158MPa and elongation percentage is 11%-24%.

So up to the present, not being documented in the world while there is anticorrosive, high-intensitive, deformation at room temperature The appearance of wrought magnesium alloy that can be good.This kind of magnesium alloy thus is developed, one of international most important target of Mei Ye association is classified as, is World today's magnesium alloy manufacturing industry and researcher worldwide technological puzzle in the urgent need to address.

Summary of the invention

The present invention by contain 7-16Wt.% lithium, and quench after Vickers hardness can increase 100HV or more ternary and Polynary magnesium lithium alloy material, carries out further processing processing, and nanoscale extremely rare in metal material has been obtained in its tissue The tissue in element aggregation area, the tissue impart the unusual performance of this magnesium alloy: while there is improved corrosion performance, high-strength The good excellent properties combination of degree, deformation at room temperature performance.Therefore this anticorrosive high-strength deformation nanometer magnesium alloy has been invented, and its Preparation method and application.The present invention has successfully hewed out a completely new approach, and solve not while having in the world at present This worldwide technological puzzle of corrosion resistance is good, intensity is high and deformation at room temperature performance is good magnesium alloy.

The technical scheme of the invention to solve the technical problem is:

By to contain 7-16Wt.% lithium, and quench after Vickers hardness can increase 100HV or more ternary and polynary magnesium Lithium alloy bar, plate, band, wire rod, tubing or profile semi-finished product, according to preparation method of the invention below, in its group Nano scaled elemental accumulation regions are prepared in knitting, and form nano-structure, it is unique excellent which assigns this alloy Combining properties, to prepare the anticorrosive high-strength nano wrought magnesium alloy.

The preparation method of the anticorrosive high-strength nano wrought magnesium alloy, which is characterized in that the preparation method step It is as follows:

(1) choosing above-mentioned Vickers hardness containing 7-16Wt.% lithium and after quenching can increase the ternary of 100HV or more and more First magnesium lithium alloy bar, plate, band, wire rod, tubing or profile semi-finished product；

(2) 200-450 DEG C or more is heated to above-mentioned semi-finished product, heat preservation 1-100 minutes or more time, carried out at quenching Reason, obtaining Vickers hardness 100HV or more and the standard potentiodynamic polarization electric current in 0.1 mole of salt water is 3-12 μ A/cm²'s Quenching structure material；

(3) nature or artificial aging carried out to above-mentioned quenching structure material, aging temp can be from room temperature to 200 DEG C with On, aging time is from 1 minute to 10000 hour or more；Tissue after timeliness, relative to quenching structure, according to aging temp, time And the ingredient of alloy is different, Vickers hardness reduces 1-50HV or more and potentiodynamic polarization electric current increases in 0.1 mole of salt water 0.1-10μA/cm²More than；

(4) to after above-mentioned timeliness material carry out deformation process, processing mode be roll, forge, swaging, squeezing, drawing, It is one of or several in roll-in, punching press, deep draw and reaming, when deflection is greater than 2-20% or more, obtain described anti- Corrode high-strength nano wrought magnesium alloy, has nano-structure below；

(5) the nano-structure feature is that nanoscale richness lithium accumulation regions, the aggregation of nanoscale richness aluminium are distributed in rich magnesium matrix Area and other element nanometers accumulation regions, tissue signature are: the nanoscale richness lithium accumulation regions described in (a) are defined as this alloy The region lithium atom percentage composition >=50At.% in tissue, lithium atom percentage composition in the region by its surface 50At.% Step up the 50-99.99At.% to center；(b) it is former that the nanoscale richness aluminium accumulation regions described in are defined as aluminium in this alloy structure The region of sub- percentage composition >=20At.%, the aluminium atom percentage composition in the region are increased to center by the 20At.% on surface 20-99At.%；(c) according to ingredient and treatment process difference, this alloy can also contain the elements such as nanoscale zinc-rich, Fu Yin, copper-rich Accumulation regions, atom content >=20At.% of the every kind of enriched element in its respectively nanoscale accumulation regions, and from surface to center according to Secondary to be increased to 20-90At.%, every kind of nanoscale accumulation regions, bulk averaged value range is 100-125000 cubic nanometer, accounts for material Total volume content range is 0-10%；(d) the rich magnesium matrix described in be defined as above-mentioned various elements nanoscale accumulation regions and its Other than its phase composition, magnesium atom content is greater than the region of 50At.%.The nanostructure imparts the anticorrosive high intensity and receives Following performances of rice wrought magnesium alloy.

(6) there is the anticorrosive high-strength nano wrought magnesium alloy of above-mentioned nano-structure feature, performance characteristic exists In being provided simultaneously with improved corrosion, high intensity and high deformation performance at room temperature: the dynamic electricity of standard in 0.1 mole of salt water Bit polarization electric current 3-12 μ A/cm², when it is exposed to ambient enviroment, surface and the oxygen in ambient enviroment, carbon dioxide, Moisture etc. is reacted, and a kind of Li that is fine and close, being insoluble in water is formed₂CO₃Protective film, such as the Al formed in aluminium surface₂O₃Film Protect the Cr of aluminium and stainless steel surface₂O₃Film protect stainless steel it is the same, assign this alloy improved corrosion performance, protect alloy from It further corrodes；Meanwhile nanostructure assign the magnesium alloy height than yield strength up to 100-250 kilonewton meter/kilogram, and body The rich lithium accumulation regions of heart cubic structure, impart the high deformation performance of the magnesium alloy, and elongation percentage reaches as high as 60%.

Here it is the preparation methods of the anticorrosive high-strength nano wrought magnesium alloy and its gained nano-structure to receive with this Rice tissue assigns the excellent properties combination of this alloy.

(7) since the anticorrosive high-strength nano wrought magnesium alloy has ultralight, improved corrosion, high intensity and high deformation The excellent properties of performance combine, thus can be applied to manufacture ultralight Magnesium Alloys Components, are applied in following products:

Electronic apparatus class, such as mobile communication equipment, computer, camera,

The vehicles, such as automobile, train, bicycle and civil aircraft,

Aerospace, such as satellite, airship, space shuttle, moonfall device and rocket,

And defence product, as someone and unmanned military aircraft, guided missile, aerial bomb, big gun penetrate or scatterable mine and submarine mine, The artillery such as radar, tank composite armour, automatic rifle sighting device, magazine and gun stock equipment.

Can effectively mitigate the weight of these products, improve its payload, increase its intensity and rigidity, reduce vibration, It absorbs impact and external environment is effectively reduced to the electromagnetic interference of product.

The technological progress achieved by the present invention is by adopting the above technical scheme:

The present invention by containing 7-16Wt.% lithium and quench after Vickers hardness can increase 100HV or more ternary and Polynary magnesium lithium alloy semi-finished product carry out further processing processing, have obtained having excellent corrosion protection energy, be provided simultaneously with it is high-intensitive, The good nanometer magnesium alloy of deformation at room temperature performance, preparation method and application, successfully solving in the world not while having highly resistance Corrosive nature, high intensity and good magnesium alloy this worldwide technological puzzle of deformation at room temperature performance.

Why the magnesium-alloy material of the method for the present invention production, be able to solve this global problem, is attributed to the fact that (a) is selected Present invention particular category magnesium alloy semifinished material as defined in above-mentioned paragraph, (b) with preparation side described in the invention Method (c) is produced, and nanometer the special nano-structure being described in detail in the preceding paragraph: is distributed in rich magnesium matrix Rich lithium accumulation regions, nanoscale richness aluminium accumulation regions and the other element nanometers accumulation regions of grade.

In general, the material containing tissue size less than 100 nanometers is known as nano-structure material, the material is because of its tissue size Significantly it is lower than common micro grade organization material, thus is very different from micron organization material in performance.To micron tissue material For material, corrosion resistance, strength character and deformation at room temperature performance be it is conflicting, this grows that relationship to disappear, is extremely difficult to All these performance indicators are in optimum state simultaneously.So the special nano-structure of this alloy, has broken micron organization material This limitation, impart this magnesium alloy be so different from the unique improved corrosion of usual micron order magnesium alloy, high intensity and The excellent properties of deformation at room temperature performance combine.

Dynamic voltage polarizing electric current of this Magnesium Anti-Corrosion in 0.1 mole of salt water is 3-12 μ A/cm², the electric current Smaller corrosion resistance is better, so, 1 μ A/cm of this alloy corrosion electric current between fine aluminium in most cases²With the 10 of pure magnesium μA/cm²Centre, and fine aluminium and pure magnesium have best corrosion resistance in aluminium alloy and magnesium alloy respectively.That is, this Carry out the worst specific magnesium lithium alloy of the corrosion resistance in all magnesium alloys, is required according to condition, at the art of this patent processing Reason, after forming nano-structure, corrosion resistance substantially surmounts pure magnesium and other classification magnesium alloys, and it is best to become corrosion resistance Magnesium alloy.In ambient atmosphere environment, the generations such as this alloy surface and oxygen, moisture and carbon dioxide in atmosphere and environment are anti- It answers, forms one layer of fine and close Li for being insoluble in water₂CO₃Protective film.This layer of protective film, just as aluminium alloy and stainless steel surface The Al of formation₂O₃And Cr₂O₃Protective film is the same, protects its alloy bulk from further corroding, assigns this alloy high corrosion resistance Energy.Meanwhile nano-structure also assign magnesium alloy 100-250 kilonewton meter/kilogram ratio yield strength, reach as high as 60% Elongation percentage and good deformation at room temperature performance.

So this magnesium alloy has so excellent combining properties, obtain important breakthrough in field of magnesium alloy, be attributed to the fact that for Meet this patent particular requirement containing 7-16Wt.% lithium and quench after Vickers hardness can increase 100HV or more ternary and Complex magnesium alloy bar, plate, wire rod, tubing or profile semi-finished product, according to the processing method of this patent, carry out further plus The obtained unique nano-structure of work forms the anticorrosive high-strength deformation nanometer magnesium alloy.

Since the anticorrosive high-strength nano wrought magnesium alloy has ultralight, improved corrosion, high intensity and high morphotropism The excellent properties combination of energy, thus can be applied to manufacture ultralight Magnesium Alloys Components, it is applied in following products:

The vehicles, such as automobile, train, bicycle and civil aircraft,

Detailed description of the invention

Fig. 1 is atom distribution of this anticorrosive high-strength deformation nanometer magnesium alloy in 40x40x70 nanometers of three-dimensional space And its organization chart；

Fig. 2 is atom distribution and its tissue of this anticorrosive high-strength deformation nanometer magnesium alloy in bigger three-dimensional space Figure；

Fig. 3 presents this anticorrosive high-strength deformation nanometer magnesium alloy and existing industrial titanium alloy, aluminium alloy and existing magnesium Performance comparison of the alloy in specific strength and elongation percentage performance space；

Fig. 4 presents this anticorrosive high-strength deformation nanometer magnesium alloy and existing industrial magnesium alloys, than yield strength and Elongation percentage performance space, and its performance pair in the performance space than yield strength and the polarization current for representing corrosion resistance Than；

Fig. 5 is that this anticorrosive high-strength deformation nanometer magnesium alloy and the pure magnesium alloy of existing best corrosion resistance behavior exist Experimental result comparison in corrosion resistance test, and its better than the Corrosion resistance mechanism of pure magnesium corrosion resistance.

In figure 1 above, 1- rich magnesium matrix, 2- richness lithium accumulation regions, 3- richness aluminium accumulation regions.

Wherein, Fig. 1, three-dimensional atom probe reconstruct image disclose this magnesium alloy in a 40x40x70 nanometers of three-dimensional space areas Tissue and atom distribution map in domain.It is (dark that (1-a) illustrates the rich lithium accumulation regions in rich magnesium matrix (loose sand shape region) Particulate matter) and rich aluminium accumulation regions (lighter colored particles object) appearance and size and spatial distribution.Rich lithium accumulation regions and rich aluminium accumulation regions, Be respectively defined as by atomic percentage content be 50At.% lithium, 20At.% aluminium equal size interface, area encompassed.(1-b) It can be seen that lithium atom percentage composition from left to right from rich magnesium matrix into rich lithium accumulation regions the equal size interface of 50At.% and in The heart, the distribution situation successively increased.(1-c) illustrates aluminium atom percentage composition from left to right from rich magnesium matrix to rich aluminium accumulation regions The distribution situation that the equal size interface of middle 20At.% and aggregation district center successively increase.

Fig. 2, three-dimensional atom probe reconstruct image disclose: the ruler of the rich lithium accumulation regions (dark particulate matter) in (A) this alloy Very little, pattern and spatial distribution state.Rich lithium accumulation regions are defined as the equal size interface institute by atomic percentage content for 50At.% lithium The region of encirclement；(B) rich magnesium matrix (the loose sand shape of the rich lithium accumulation regions (dark particulate matter) and its place in figure (A) is illustrated Region is defined as other than all elements accumulation regions and other phase constitutions, magnesium atom content be greater than 50At.% region) group It knits；Figure (C) illustrates in figure (B), and the diameter that the rectangular item of central part is indicated is in 10 nm cylinder shape regions, and magnesium and lithium are former Son discloses magnesium and lithium atom distribution situation in rich magnesium matrix and rich lithium accumulation regions along the distribution map in body length direction.

Fig. 3 is this nanometer of magnesium alloy and existing industrial titanium alloy, aluminium alloy and magnesium alloy in specific strength and elongation percentage performance Performance comparison in space；The specific strength and elongation percentage of usual material are that this rises that drop as shown in alloys other in this figure Relationship.This comparison has disclosed this nanometer of magnesium alloy, compared with industrial aluminum, magnesium, titanium alloy, possesses high specific strength, with Gao Yan Stretch the excellent properties combination of rate and high deformation performance.

Fig. 4-a shows this alloy and existing industrial magnesium alloys, than the performance in yield strength-elongation percentage performance space Comparison.Two performance indicators of ratio yield strength and elongation percentage of usual material are this liters as shown in magnesium alloys other in this figure The relationship of that drop.The comparison discloses this alloy compared with current existing industrial magnesium alloys, while having very high stronger than surrendering The excellent properties of degree and elongation percentage combine.

Fig. 4-b shows this alloy and other existing industrial magnesium alloys in than yield strength-polarization current performance space Performance comparison shows this alloy compared with industrial magnesium alloys, is provided simultaneously with very high than yield strength and in 0.1 mole of salt water The excellent properties of hypopolarization electric current combine.Note that industrial alloy polarization current is from document, magnesium and its alloy therein, Polarization current is varied because test condition is different.

Fig. 5 illustrates the superior corrosion resistance of this alloy and its anticorrosive principle.(a) show that this alloy and pure magnesium exist The standard dynamic potential polarization curve tested in 0.1 mole of salt water, the standard potentiodynamic polarization of this alloy and pure magnesium in the curve Electric current is respectively 6 and 10 μ A/cm², it is (b) to have carried out electrochemistry friendship after this alloy and pure magnesium impregnate 3 days in 0.1 mole of salt water Flow impedance is general, has disclosed this nanometer of magnesium alloy dissolution kinetics and has been significantly less than the pure magnesium with best corrosion resistance, also It is that (a) and (b) discloses the pure magnesium of this alloy ratio jointly and possess more superior corrosion resistance, and figure (c) and (d) pass through XPS deep layer Anatomy technology, test analysis have arrived this alloy surface chemistry tissue, disclose and form one layer of densification in nanometer Mg alloy surface Be insoluble in water Li₂CO₃Protective film protects this alloy from further corroding.

Specific embodiment

The present invention is increases to 100HV or more to containing Vickers hardness after 7-16Wt.% lithium and quenching, such as Mg- 13%Li-5%Al, Mg 10%Li 3.9%Zn 2.5%Al 1.8%Cu, Mg-11%Li-3.3%Al-0.6%Y-0.2% Ternarys such as Zr, Mg-13%Li-3%Al and Mg-13%Li-3%Al-1%Zn (ingredient be weight percentage Wt.%) and polynary The green shape of magnesium lithium alloy is prepared in its tissue with following described according to the method described in the present invention and step Nano-structure, and when nano-structure imparts the magnesium alloy room temperature, to be provided simultaneously with improved corrosion, high intensity, deformation performance excellent It is good, so that anticorrosive high-strength deformation nanometer magnesium alloy be made.

The anticorrosive high-strength deformation nanometer Magnesium Alloy of the method for the present invention are as follows: nanoscale is distributed in rich magnesium matrix Rich lithium accumulation regions and nanoscale richness aluminium accumulation regions and other element nanometers accumulation regions.(a) the nanoscale richness lithium accumulation regions described in It is defined as the region lithium atom percentage composition >=50At.% in this alloy structure, the lithium atom percentage composition in the region is by it The 50At.% on surface steps up the 50-99.99At.% to center, and the accumulation regions bulk averaged value range is vertical for 100-8000 Square nanometer accounts for material volume content range, different according to ingredient, treatment process and parameter, is 5%-35%；(b) receiving described in Meter level richness aluminium accumulation regions are defined as the region aluminium atom percentage composition >=20At.% in this alloy structure, and the aluminium in the region is former Sub- percentage composition is increased to the 20-99At.% at center by the 20At.% on surface, and rich aluminium accumulation regions bulk averaged value range is 100-30000 cubic nanometer accounts for material volume content, different according to ingredient, treatment process and parameter, range 0-25%；(c) According to ingredient and treatment process difference, this alloy can also contain the element aggregations areas such as nanoscale zinc-rich, Fu Yin, copper-rich, every kind of richness Collect atom content >=20At.% of the element in its respectively nanoscale accumulation regions, and is successively increased to 20- from surface to center 90At.%, every kind of accumulation regions bulk averaged value range are 100-125000 cubic nanometer, and accounting for material volume content range is 0- 10%；(d) the rich magnesium matrix described in is defined as other than above-mentioned various elements nanoscale accumulation regions and other phase compositions, and magnesium is former Sub- content is greater than the region of 50At.%.

The room-temperature property of the anticorrosive high-strength deformation nanometer magnesium alloy are as follows: the electrokinetic potential pole in 0.1 mole of salt water Galvanic current is 3-12 μ A/cm², when being exposed to ambient enviroment, the metallic element in alloy is on its surface and water, the oxygen in air The components such as gas, carbon dioxide chemically react, and form a kind of Li that is fine and close, being insoluble in water₂CO₃Protective film protects this alloy Ontology assigns this alloy improved corrosion performance from further corroding.Nano-structure also imparts this alloy 100- simultaneously 250 kilonewton meters/kilogram height than yield strength, reach as high as 60% high-elongation and good deformation at room temperature ability.

Here is the anticorrosive high-strength deformation nanometer of 1 millimeters thick Mg-11%Li-3.3%Al-0.6%Y-0.2%Zr of one kind The specific preparation method of magnesium alloy sheet, steps are as follows for the preparation method:

(1) 3 millimeters thicks, 100-500 mm wide, 500-1000 millimeters or more length, ingredient Mg-11%Li- are chosen For the hot extrusion plate of 3.3%Al-0.6%Y-0.2%Zr as original material, which is 1.4 grams per cubic centimeter, firmly Degree is 63 ± 5HV and the standard potentiodynamic polarization electric current in 0.1 mole of salt water is 12-15 μ A/cm²More than；

(2) above-mentioned hot extrusion pressing plate 250-450 DEG C of electric furnace is put into after heat preservation 5-100 minutes or more time to carry out at quenching Reason, obtains 135 ± 15HV of Vickers hardness and 8 ± 2 μ A/cm of standard potentiodynamic polarization electric current in 0.1 mole of salt water²Quenching Group textile board；

(3) to above-mentioned quenching structure plate in 10-100 DEG C of timeliness 0.5-1000 hours or more time, obtaining hardness is 90- 135HV, potentiodynamic polarization electric current is 6-12 μ A/cm in 0.1 mole of salt water²Aging Microstructure plate；

(4) above-mentioned Aging Microstructure plate is rolled using milling train, rolling direction is laterally and vertically material respectively Length, width and thickness direction；

(5) every time under the amount of rolling 5-20%, mill speed be 3-20 meter per minute, until plate thickness by 3 millimeters be reduced to 1 in the least Rice, obtains the anticorrosive high-strength deformation nanometer magnesium alloy；

(6) this anticorrosive high-strength deformation nanometer magnesium alloy, which possesses, bulk averaged value range is distributed in rich magnesium matrix is 200-1800 cubic nanometer, three-dimensional polyhedron richness lithium accumulation regions and the bulk averaged value that volumn concentration range is 5-35% Range is 150-3000 cubic nanometer, and volumn concentration range is the nanometer group of the three-dimensional polyhedron richness aluminium accumulation regions of 3-8% It knits；

(7) this anticorrosive high-strength deformation nanometer magnesium alloy plate, is provided simultaneously at room temperature: (a) high corrosion resistance, The polarization current measured in the standard potentiodynamic polarization current testing carried out in 0.1 mole of salt water is 5-10 μ A/cm², when it When surface is exposed to ambient enviroment, the metallic element in alloy can be with the water in air, oxygen, the components such as carbon dioxide Reaction is learned, a kind of Li that is fine and close, being insoluble in water is formed₂CO₃Protective film, protection plate are further corroded；(b) surrender is strong Spend 230 ± 20MPa, than 165 ± 15 kilonewton meter of yield strength/kilogram, and (c) elongation percentage 10-35%；

(8) since the anticorrosive high-strength nano wrought magnesium alloy has ultralight, improved corrosion, high intensity and high deformation The excellent properties of performance combine, thus can be applied to manufacture ultralight Magnesium Alloys Components, are applied in following products:

The vehicles, such as automobile, train, bicycle and civil aircraft,

Claims

1. anticorrosive high-strength deformation nanometer magnesium alloy, which is characterized in that it is 7- that the magnesium alloy, which is containing weight percentage, The lithium of 16Wt.%, and quench after Vickers hardness can increase 100HV or more ternary and polynary magnesium lithium alloy；

(a) its tissue signature is, nanoscale richness lithium accumulation regions and nanoscale richness aluminium accumulation regions are distributed in its rich magnesium matrix, Wherein the bulk averaged value range of nanoscale richness lithium accumulation regions is 100-8000 cubic nanometer, and content accounts for material total volume range and is 5-35%；The bulk averaged value range of nanoscale richness aluminium accumulation regions is 100-30000 cubic nanometer, and content accounts for material total volume model It encloses for 0-25%, does not include at 0 point；(b) the nanometer Properties of Magnesium Alloy is characterized in that, is provided simultaneously at room temperature following excellent Different combining properties: potentiodynamic polarization electric current ultralight, in 0.1 mole of salt water is 3-12 μ A/cm²Corrosion resistance, 100-250 Kilonewton meter/kilogram ratio yield strength, reach as high as 60% elongation percentage and good deformation performance；

The preparation of the nanometer magnesium alloy includes at least following steps:

(1) choose it is above-mentioned containing 7-16Wt.% lithium and quench after Vickers hardness can increase 100HV or more ternary and polynary magnesium Lithium alloy；

(2) 200 DEG C or more are heated to above-mentioned alloy, heat preservation 1 minute or more time, are quenched, obtain Vickers hardness 100HV or more, the standard potentiodynamic polarization electric current in 0.1 mole of salt water are 3-12 μ A/cm²Quenching structure material；

(3) timeliness is carried out to above-mentioned quenching structure material, aging temp is more than room temperature, and aging time was at 1 minute or more, timeliness Material Vickers hardness afterwards reduces by 1 or more, potentiodynamic polarization electric current increases 0.1 μ A/cm in 0.1 mole of salt water²More than；

(4) deformation process is carried out to the material after above-mentioned timeliness, after deflection reaches 2-20%, that is, be made described anticorrosive High-strength deformation nanometer magnesium alloy.

2. anticorrosive high-strength deformation nanometer magnesium alloy according to claim 1, component distributing are characterized in that: (a) institute The nanoscale richness lithium accumulation regions stated are defined as the region lithium atom percentage composition >=50At.% in the alloy structure, in the region Lithium atom percentage composition the 50-99.99At.% to center is stepped up by the 50At.% on its surface；(b) nanometer described in Grade rich aluminium accumulation regions are defined as the region aluminium atom percentage composition >=20At.% in the alloy structure, the aluminium atom in the region Percentage composition is increased to the 20-99At.% at center by the 20At.% on surface；(c) described according to ingredient and treatment process difference Nanometer magnesium alloy can also contain nanoscale zinc-rich, Fu Yin, copper-rich element aggregation area, and respectively nanoscale is poly- at its for every kind of enriched element Collect atom content >=20At.% in area, and is successively increased to 20-90At.%, every kind of nanoscale aggregation from surface to center Area, bulk averaged value range are 100-125000 cubic nanometer, and accounting for material total volume content range is 0-10%, do not include at 0 point； (d) the rich magnesium matrix described in is defined as other than above-mentioned various elements nanoscale accumulation regions and other phase compositions, and magnesium atom contains Amount is greater than the region of 50At.%.

3. anticorrosive high-strength deformation nanometer magnesium alloy according to claim 1, which is characterized in that the nanometer magnesium alloy When being exposed to ambient enviroment, Li can be formed on its surface₂CO₃Protective film.

4. anticorrosive high-strength deformation nanometer magnesium alloy according to claim 1, which is characterized in that the nanometer magnesium alloy It can be applied to manufacture Magnesium Alloys Components, to be applied to electric equipment products, vehicles product, Aerospace Products, national defence Product.

5. a kind of preparation method of anticorrosive high-strength deformation nanometer magnesium alloy as described in claim 1, which is characterized in that should Steps are as follows for preparation method:

(2) 200 DEG C of temperatures above are heated to above-mentioned alloy, heat preservation 1 minute or more time, are quenched, obtain Vickers Hardness 100HV or more, the standard potentiodynamic polarization electric current in 0.1 mole of salt water are 3-12 μ A/cm²Quenching structure material；

6. the preparation method of anticorrosive high-strength deformation nanometer magnesium alloy according to claim 5, which is characterized in that described Deformation process in step (4) are as follows: rolling roll-in, is forged, swaged, squeezing, one of drawing and stamping, deep draw and reaming Or it is several.