CN105936995A - Aluminum alloy material replacing QT400 automobile control arm and semi-solid state die-casting forming method of aluminum alloy material - Google Patents

Abstract

The invention discloses an aluminum alloy material replacing a QT400 automobile control arm. The aluminum alloy material is characterized in that the aluminum alloy material is mainly prepared from, by weight percent, 0.005%-0.05% of platinum (P), not larger than 2% of manganese (Mn), 0.05%-0.5% of cadmium (Cd), 4.2%-8.0% of cuprum (Cu), 1%*10<-4>-2.0% of Lewis acid and alkali pairs and the balance Al, wherein the percent of Cu is larger than or equal to 0.8Mn+4.05%, and the average alloy grain size is smaller than 120 micrometers.

Description

A kind of aluminum alloy materials substituting QT400 automobile control arm and semisolid pressure casting forming method thereof

Technical field

The present invention relates to a kind of aluminum alloy materials substituting QT400 automobile control arm and preparation method thereof.

Background technology

Spheroidal graphite cast-iron (abbreviation magnesium iron) is one of primary base material in steel industry, extensively it is heavily used for manufacturing stress complexity, intensity, toughness, wearability etc. require higher part, as universal machine, lifting, agricultural, automobile, cast, weave, lathe, electric power, petrochemical industry, boats and ships part etc., Main Morphology and type are hydraulic pressure housing, the pump housing, pipeline, valve body, cylinder body, wheel hub, shaft member, ball connection, driving member, suspender, hook fastener, conducting element, tumbler etc.；In the automotive industry, the consumption of ferrous materials accounts for the 60～70% of Vehicle Materials total amount, and therein more than 2/3rds is again magnesium iron class ferroalloy, but magnesium iron product is due to itself, has become as a big threshold in automotive light weight technology direction.

On engineer applied, the size of aluminum alloy solution body crystal grain and state, and it is distributed in the size and form of the intermetallic compound of crystal boundary, the mechanical property of alloy there is is conclusive impact.Thick plane is brilliant, dendrite, the irregular crystals such as column crystal and the thick brittle property intermetallic compound being distributed in crystal boundary, the obdurability contribution of matrix all can be balanced out by fine structure good for alloy and precise and tiny structure, because the law of development that these coarse grains are deferred to results from the raw core of type wall of casting mold cavity, from the growth pattern that export-oriented liquid internal is unidirectionally extended, cause the component segregation of alloy, crystallize thick unidirectional, the defect that macro property is uneven, thus become some common deficiencies of alloy, such as pin hole, pore, shrinkage cavity, shrinkage porosite, segregation, thick solid solution, high hardness compound, the root of crackle etc..The routine used at present goes bad the means of means and crystal grain thinning, as added aluminum titanium boron or Al-Ti-C master alloy, best effect can only make mean grain size refine to 120～150 microns, and the form of dendrite does not often have basic transformation, this is the important bottleneck problem that alloy mechanical property improves.Because for aluminium alloy, it is thus achieved that the refinement of the approach that intensity and toughness improve, only crystal grain and rounding simultaneously；The adjustment of Technology for Heating Processing, at crystalline structure it has been determined that, intensity or one aspect of toughness can only be made to obtain and to optimize.Therefore, refine the most further and the mean grain size of rounding alloy, be the target pursued all the time of industrial circle.

211Z heat-resistance high-strength tough Cast aluminium alloy gold enters the aluminum leading level in the world because having " four high three is good " feature (the most high-strength, high-ductility, high hard, high temperature resistant, good casting property, good processability, good cycle simultaneously).But, in terms of design of material angle, 211Z material there is also some problems being difficult to overcome.Micro analysis finds, has some bulky grains to have the highest titanium Ti and rare earth concentration, and as the material for promoting crystal grain to refine, this phenomenon shows that Ti and rare earth have moved towards to need the opposite of solution problem；And in the production process of 211Z alloy-steel casting, also there is defect common as common aluminum alloy, including pin hole, pore, shrinkage cavity and porosity, segregation, thick solid solution, high hardness compound, be mingled with (slag), cold shut, cold shot, crackle, rotten defect, solid solution deficiency and burning etc..

Analyze by aluminum bronze manganese systems (Al-Cu-Mn) alloy being up to spherical aberration correction scanning transmission electron microscope (STEM) the precise and tiny constituency of the very high resolution of 0.08nm, it is thus achieved that set up various phase structures on an atomic scale, Atomic Resolution and chemical element distribution.Confirm wherein to there is a series of hardening constituent, including well-known Al-Cu binary metastable phase (GP district, θ ＂, θ ＇), new disc phase and balance phase θ (Al₂Cu)；Wherein inside matrix grain, new discovery one rod forked (T+ θ H) combination phase, the trunk portion T-phase of this combination phase is Al-Cu-Mn ternary phase, molecular structural formula Al₂₀Cu₂Mn₃, molecule phase character be diameter about 100nm, length about 600～1000nm be mandrel shape and its (010) face and alloy matrix aluminum { 010} face coherence；And apposition growth size is compared with the Al-Cu binary secondary phase of big (thickness about 20nm, be about 50nm) around T-phase, owing to this secondary phase compares with other Al-Cu metastable phase in matrix (GP district, θ ＂, θ ＇ or other disc phase), structurally there is very big difference, particularly thickness is thicker much than other Al-Cu metastable phase, therefore the present invention is referred to as θ H phase, its molecular structural formula Al_xCu (x is likely less than 2), is a kind of rich Cu molecule.

The binary Al-Cu metastable phase of GP district, θ ＂, θ ＇ or other disc shaped belongs to dislocation to the contribution feature of alloy strength and cuts through particle mode, it is characterized in that disc looks the biggest, cut through the most difficult, therefore the contribution to intensity is the biggest, but, when disc is big to a certain extent (more than 150nm, thickness only has 1～3nm to diameter), and its lattice dot matrix is too high with the mismatch of matrix lattice dot matrix, the most no longer can keep complete coherence with matrix, and gradually show the feature of brittlement phase.Therefore, coherence should be kept to have again the mismatch stress field of maximum to hinder dislocation movement by slip ability to play maximum, the problem that binary Al-Cu each metastable phase particle has a best of breed, it is also required to the contribution that it is bigger to the elongation percentage holding of matrix, one of subject matter that this is in the past or even design of material will be to be considered from now on simultaneously.

Existing aluminium alloy automobile control arm uses Forging Technology, there is the deficiencies such as manufacturing cost is high, stock utilization is low, production efficiency is low.Meanwhile, tensile strength only has 400Mpa, elongation percentage 12%.Under the long-term dynamic load effect of control arm, have impact on integeral vehicle life and security performance.

Summary of the invention

The technical problem to be solved in the present invention is: a kind of aluminum alloy materials substituting QT400 automobile control arm and preparation method thereof is provided, wherein add Lewis Acids and Bases pair, effectively to expedite the emergence of critical nucleus (obtaining equiax crystal), alloy is made to obtain the optimal combined structure of molecule thing ((T+ θ H) combines phase) before curing, promote alloy crystalline state optimization, enable aluminum alloy to base material and realize 400MPa and higher strength grade, thus reach to produce the Al-alloy products substituting QT400 automobile control arm.

The technical scheme is that: a kind of aluminum alloy materials substituting QT400 automobile control arm, main constituent content by weight percentage: platinum P:0.005%-0.05%, manganese Mn :≤2%, cadmium Cd:0.05%～0.5%, copper Cu:4.2%～8.0% and Cu >=0.8Mn+4.05%；Lewis Acids and Bases is aluminum Al to total amount 1% × 10-4～2.0%, alloy mean grain size ＜ 120 microns, surplus.

Described alloy grain is equiax crystal.

In described alloy grain, sub-nanometer (T+ θ H) combination phase amount reaches >=1/square micron.

One in the described Lewis Acids and Bases positive and negative ion body to being combined into for metal and part, complicated ligand compound, super large heteropoly compound, or more than one mixing.

Cation body, anion body that described metal and part are combined into comprise cobalt tetracarbonyl anion body Co (CO) 4-.

Described complicated ligand compound or super large heteropoly compound, sodium titanate Na2TiO3.

Described Lewis Acids and Bases pair, accounts for Al matrix percentage by weight by element addition, and scope is: C ＜ 0.1%, N ＜ 0.05%, Mg ＜ 0.05%, Co (CO)₄ ^-＜ 0.02%, Na₂TiO₃＜ 0.01.

The preparation method of a kind of aluminum alloy materials substituting QT400 automobile control arm, comprises the steps of

(1) in the range of aforementioned Lewis Acids and Bases is to, element ratio, selected one group of combinations of substances, determine weight ratio, the alloy total amount prepared as required, extrapolate the weight of every kind of required material；

(2) adding aluminium ingot or molten aluminum liquid in smelting furnace, heating is also incubated more than 700 DEG C；

(3) addition manganese Mn, cadmium Cd, copper Cu and platinum Pt, stirring, adds selected Lewis Acids and Bases pair, or the Lewis Acids and Bases that addition is selected is to combination, stirs；

(4) then above-mentioned alloy melt is carried out furnace refining；

(5) remove the gred after refine, stand, sample analysis alloy composition, adjust chemical composition in the deviation range of regulation according to analysis result；Homoiothermic is to more than 650 DEG C, and aluminium alloy is come out of the stove, online degasification, slagging-off；

(6) semisolid pressure casting is made, and refers to that aluminium alloy injects in running gate system, and when semisolid, type, solidification and crystallization are filled in pressurization.

Described semisolid pressure casting, step is as follows:

1. pourable casting after filtering；

2. mould should be preheated before casting, by compressed air, mold cavity be blown clean；

3. taking automatic casting, dip aluminium alloy and pour ingot-containing tube into, ingot-containing tube is moved to mould gate in stove, point speed controls extrusion speed, shifts onto in mould by the aluminium alloy in ingot-containing tube, improves pressure forming, pressurize solidification and crystallization during semisolid.

4. product, natural cooling, sawing rising head, polishing overlap are taken out in die sinking；

5. appearance quality detection: rough casting, before carrying out presentation quality inspection, should be cleaned out smooth, the dead head of non-machined surface should be cleaned to cast(ing) surface and flush；

6. internal soundness detection；

7. solution treatment: solid solution furnace sent into by the blank that foundry goods completes roughing and inside and outside quality testing, carries out less than 560 DEG C solution treatment, quenches at once after being incubated, uses water-cooled or oil cold；

8. ageing strengthening: the foundry goods completing solution treatment is sent into aging furnace and carries out ageing strengthening process, ageing strengthening below 230 DEG C, after insulation, natural cooling of coming out of the stove；

9. sample analysis test checking；

10. Practical Performance checking.

Beneficial effects of the present invention: pointed by lewis' theory of acids and bases, molecule can be occurred in aluminium alloy melt to disintegrate or contribute in time nano-area " acid-base pair " material of thing phase molecule structure optimization (i.e. less than the scope of 1 nanometer), the fine structure being applied to melt nanoscale scope adjusts, and is the topmost creative technological means of the present invention.

By using lewis' theory of acids and bases, make about Lewis Acids and Bases the interpolation of trace element of carrying and eliminating, disintegrate at aluminium alloy melt environment generation molecule and convert, to provide abundant disturbance and the activation effect of (0.1nm～10nm range scale) in the hyperfine microcell of melt, reach to expedite the emergence of critical nucleus to be formed in a large number, alloy grain degree is made to be refined further, form more rounding；Optimize very small areas (micron order: about yardstick 1～30 μm) and the thing phase molecule combinative structure of precise and tiny region (Subnano-class or sub-micron grade particle: yardstick 10nm～＜ 1 μm) simultaneously, increase (T+ θ H) combination content in alloy substrate, be the mechanism problem of the alloy strengthening that the present invention solves.

Discovery due to (T+ θ H) combination phase, when aluminium alloy strengthening design, increase by (T+ θ H) combination phase, the matrix strength enabling aluminum alloy to material obtains big lifting, it is well controlled between 400～600MPa in yield strength, this is the engineer applied problem that the invention solves the problems that, i.e. alternate series ductile iron material and goods.

The negative ions body that aforementioned metal of the present invention and part are combined into, complicated ligand compound, super large heteropoly compound, owing to the metallic atom in its lewis' acid structure or ion are electron acceptors, for lewis acid, and its part non-metallic atom or atomic group are electronq donors, for lewis base, whole lewis' acid then constitutes Louis's " acid-base pair ".

Anion body Co (CO)₄ ^-, it is Louis's " acid-base pair ", the Mn that can accept electronics pair in these materials³⁺、Fe²⁺、Pt²⁺And Mn²⁺Being all lewis acid, the corresponding part-CO providing electronics pair is lewis base.

Cation body and anion body are as Louis " acid-base pair ", alloy grain refinement had the excellent effect that ordinary matter cannot realize, this is at normal temperatures can stable existence as normal material molecule due to: these gas ions, and occur molecule to disintegrate in aluminium alloy melt such high temperature acid or alkali environment, generate lewis acid and lewis base；Owing to being that molecule disintegrates, so being " falling apart " of the atom combinative structure of a kind of nanometer range, with gaseous exhaust out, the core metal ion discharged then reselects and combines other atom its ligand moiety.

Complicated ligand compound, super large heteropoly compound are as Lewis Acids and Bases pair, alloy grain refinement also had the good result that ordinary matter cannot realize, because their molecular structure is similar with the structure of positive and negative ion body, atom reconstruct in the disintegration of molecule, acid-base chemical conversion and superfinishing microcell can occur in the such environment of aluminium alloy melt, also can discharge the part of gaseous state or liquid when molecule disintegrates, after series reaction, retinue purifies gas discharge melt and (such as generates CO₂、CH₄、N₂、NH₃Or H₂S) or enter slag (such as NaCl, KCl, Al (HO)₃、Al₂O₃Or Al₄C₃), the metallic atom wherein discharged or ion, non-metallic atom or ion, it it is all the ultra-fine fine particle of secondary nanophase, there is the specific surface area of maximum, be provided that the abundant disturbance in melt superfinishing microcell and activation effect, reach to expedite the emergence of critical nucleus and generate in a large number and the mechanism of inhibiting grain growth effect.By this mechanism, making matrix crystalline state generally become equiax crystal, grain size is averagely less than 120 μm, and further effect of optimization can reach grain size averagely in 50～100 μm.

To sum up, Lewis Acids and Bases pair of the present invention, variform can be shown as, the one in the positive and negative ion body being combined into including metal and part, complicated ligand compound, super large heteropoly compound, or more than one mixing.

The present invention is based on to the contrast image of alloy microstructure very high resolution and the structural analysis of precise and tiny constituency, it was found that intracrystalline also exists the hyperfine structure of (T+ θ H) excellent forked combination phase of sub-micron grade.Binary-phase each with Al-Cu compares, and (T+ θ H) combination has many advantages mutually, including: particle size is big, and anti-dislocation movement by slip face is big；Trunk portion T is the bar-shaped twin of high hard high stable compound polymerization, it is possible to walks around mode with dislocation and provides strength support for alloy；Its secondary θ H attachment on trunk oblique or be perpendicular to T mandrel direction and to surrounding matrix grows while with matrix coherence, enhance trunk and lattice dot matrix around is tightened up ability, or in other words, T mandrel is by adhering on it to the secondary phase of θ H of surrounding growth, tightening up the transmission of effect peripherad matrix space and diffusion, this effect, in secondary um region, matrix is created steel grid invigoration effect (can be described as " class concrete reinforced structure ") in concrete in similar building structure, makes matrix strength be greatly improved.This effect, if compared from monomer, be in matrix flake Al-Cu metastable phase (GP district, θ ＂, θ ＇ or other disc phase) or a combination thereof all far from comparing；But, in common aluminum bronze manganese systems (Al-Cu-Mn) alloy, owing to each binary Al-Cu metastable phase is in the distribution density of distribution density significantly larger than (T+ θ H) combination phase of intrinsic silicon, the effect of (T+ θ H) combination phase is caused to be blanked and be never found.

(T+ θ H) combination mutually in θ H but with not coordination to much bigger thickness (about 20nm), alloy substrate is created the strengthening contribution of the binary Al-Cu metastable phase being better than GP district, θ ＂, θ ＇ or other disc shaped with free state existence: θ H is except transmitting the peripherad matrix space of effect of tightening up of trunk T-phase and in addition to diffusion, owing to anti-matrix slide surface is bigger, thus bigger to matrix potentiation；Owing to direction is more, therefore isotropic uniformity is showed in the invigoration effect to matrix；Owing to being not belonging to high rigid particle, so still mode can be cut through with dislocation be supplied to the preferable plasticity and toughness of matrix；In a word, (T+ θ H) combination optimizes the thing phase molecule combinative structure of aluminum bronze manganese systems (Al-Cu-Mn) alloy mutually, provides walking around strengthening effect and cutting through strengthening effect two kinds effect higher than what free state Al-Cu metastable phase combined of high Hard Inclusion T-phase for matrix；So, research plays the comprehensive effect of this excellence, it is necessary to the combination of Al-Cu metastable phase is transferred out merely by the emphasis that design of material is paid close attention to from tradition, and concentrates on and expedite the emergence of (T+ θ H) combination phase in effect.

Inventive formulation is configured as one of technical way, is that the crystalline state combination making alloy realizes under the equiax crystal premise of mean grain size ＜ 120 microns, also can realize alloy grain internal (T+ θ H) combination phase amount 1/[μm]²Above.Therefore, main constituent content is by weight percentage: platinum P:0.005%-0.05%, manganese Mn :≤2%, cadmium Cd:0.05%～0.5%, copper Cu:4.2%～8.0% and Cu >=0.8Mn+4.05%；Lewis Acids and Bases is to total amount 1% × 10^-4～2.0%, alloy mean grain size ＜ 120 microns, surplus is aluminum Al, and platinum Pt adds, and improves the anti-fatigue performance of control arm.

Owing in the trunk T-phase of (T+ θ H) combination phase, the mass ratio of copper manganese element is about 0.8, and alloy also should be ensured that the concentration of (GP district, θ ＂, θ ＇ or other disc phase) at different levels Al-Cu binary disperse phase and distribution density do not reduce while ensureing (T+ θ H) generation, therefore, the design of copper content is being exceeded a scope of more than its saturation solubility, and ensure must be with the presence of manganese simultaneously.Under general condition, lazy weight 1/[μm] of (T+ θ H) combination phase², so being difficult to be found, the present invention is by the optimization of Lewis Acids and Bases pair, it is ensured that the quantity of (T+ θ H) combination phase 1/[μm]²Above, depth optimization effect can reach 3/[μm]²Above.

Walking around and cut through theory according to what the confrontation of material reinforcement theory dislocation was put, first the destructive process of material is the concentration stress of wherein bulky grain particle, stress in the smaller particle set of particles of the most secondary one-level, the most short grained particle stress, analogizes with secondary；When occurring to destroy, the most weak particle of global resistance first destroys, and the particle that global resistance is the strongest finally destroys, and only when all of granule all never can resist, material just occurs macroscopical destruction.

nullDue to (T+ θ H) combination and Al-Cu binary disperse phase θ ' at different levels、θ″、GPI district is respectively provided with sub-micron grade successively、Subnano-class and nano level distortion of lattice effect，As long as technical solution of the present invention improves quantity and the distribution density of (T+ θ H) combination phase in matrix，Can be achieved with Al-Cu binary disperse phase in size、Quantity and the collocation of distribution aspect are relatively uniform、Compact conformation，Then it will produce the strongest distortion of lattice stress field (maximum dot matrix mismatch) each other，Completely coherence or half coherence overall with matrix the most again，Therefore in whole crystal grain three dimensions, define a three-dimensional elastoplasticity net battle array，Similar " armored concrete " hierarchical reinforced structure (hereinafter referred to as " class concrete reinforced structure ") to fabric structure potentiation is created at whole intra-die，Substantially improve the mechanical property of alloy；This in the range of crystal particle scale equally distributed superlastic plasticity tension structure have and can effectively transfer particle as much as possible and jointly participate in opposing, share and absorb the ability of external impact momentum (Dynamic And Static Loads), thus there is on microcosmic powerful fatigue resistance.

nullIt follows from the foregoing that，Multifarious Lewis Acids and Bases pair，Because having the decomposition of nanoscale superfinishing film micro area in aluminium alloy、Disturbance、Activation、Reconstruct and eliminating effect，So that alloy is obtained in that the self-adjustment capability of the combined structure optimization of molecule thing of maximum before curing，Establish a kind of hierarchical oneself combining (submicron particles: about yardstick 10～100 μm) to crystalline state again from precise and tiny structure (Subnano-class or sub-micron grade particle: yardstick 10nm～＜ 1 μm) to fine structure (micron particles: about yardstick 1～10 μm) adjust and improve passage，Thus on the one hand solve the theoretical insurmountable melt structure of alloy phase diagram and the problem of solidification structure's optimization，On the other hand solve alloy refining、Rotten、Slagging-off、The routine techniques means such as degasification are beyond one's reach the following microscopic fields of submicron state，To the innovative design of aluminium alloy and with aluminum for steel、The iron and steel strong structure of weight is generally substituted with light strong structure，There is universal directive significance and industrial value.

Additionally, due to foreign peoples's material concentration that Lewis Acids and Bases is bigger to being supplied to alloy melt, therefore the constitutional supercooling degree of melt crystallization process is increased, nucleus is caused quickly to cross critical dimension under higher crystallization power, and free nucleation and growth in supercool liquid, formed and there is isotropism and shape closer to spherical equi-axed crystal；This because of the free growing endogenetic forming mechanism of liquid internal due to equiax crystal, change the irregular crystals such as plane crystalline substance, dendrite, column crystal because of the raw core of type wall of casting mold cavity, from the unidirectionally extended growth pattern of export-oriented liquid internal, therefore avoid or alleviate the component segregation of alloy, crystallize thick unidirectional, defect that macro property is uneven, thus it is prevented effectively from or alleviates some common deficiencies of alloy, such as pin hole, pore, shrinkage cavity and porosity, segregation, thick solid solution, high hardness compound, crackle etc..

Detailed description of the invention

The specific embodiment of the invention includes 2 parts, and Part I is prompting and explanation, and Part II is specific embodiment.

Part I: point out and illustrate

The preparation method of a kind of aluminum alloy materials substituting QT400 automobile control arm, comprises the steps of

(1) in the range of aforementioned Lewis Acids and Bases is to, element ratio, selected one group of combinations of substances, determine weight ratio, the alloy total amount prepared as required, extrapolate the weight of every kind of required material；

(2) adding aluminium ingot or molten aluminum liquid in smelting furnace, heating is also incubated more than 700 DEG C；

(3) addition manganese Mn, cadmium Cd, copper Cu and platinum Pt, stirring, adds selected Lewis Acids and Bases pair, or the Lewis Acids and Bases that addition is selected is to combination, stirs；

(4) then above-mentioned alloy melt is carried out furnace refining；

(5) remove the gred after refine, stand, sample analysis alloy composition, adjust chemical composition in the deviation range of regulation according to analysis result；Homoiothermic is to more than 650 DEG C, and aluminium alloy is come out of the stove, online degasification, slagging-off；

(6) semisolid pressure casting is made, and refers to that aluminium alloy injects in running gate system, and when semisolid, type, solidification and crystallization are filled in pressurization.

Described semisolid pressure casting molding, step is as follows:

1, melting, adds aluminium ingot or molten aluminum liquid in smelting furnace, and heating is also incubated more than 700 DEG C；

2, alloying, adds manganese Mn, cadmium Cd, copper Cu, stirring, add selected Lewis Acids and Bases pair, or add selected Lewis Acids and Bases to combination, stir；

3, refining agent refine is used in then above-mentioned alloy melt being carried out stove；

4, remove the gred after refine, stand, sample analysis alloy composition, adjust chemical composition in the deviation range of regulation according to analysis result；Homoiothermic is to more than 650 DEG C, and aluminium alloy is come out of the stove, online degasification, slagging-off；

5, semisolid pressure casting: referring to that aluminium alloy injects in running gate system, type, solidification and crystallization are filled in pressurization when semisolid.

6, pressurize solidification, pressurize solidification and crystallization under a certain pressure.

7, product, natural cooling, sawing rising head, polishing overlap are taken out in die sinking；

8, appearance quality detection: rough casting, before carrying out presentation quality inspection, should be cleaned out smooth, the dead head of non-machined surface should be cleaned to cast(ing) surface and flush；

9, internal soundness detection；

10, solution treatment: solid solution furnace sent into by the blank that foundry goods completes roughing and inside and outside quality testing, carries out less than 560 DEG C solution treatment, quenches at once after being incubated, uses water-cooled or oil cold；

11, ageing strengthening: the foundry goods completing solution treatment is sent into aging furnace and carries out ageing strengthening process, ageing strengthening below 230 DEG C, after insulation, natural cooling of coming out of the stove；

Part II: specific embodiment

Embodiment 1

1, the aluminium alloy automobile control arm material component percentage by weight of a kind of QT400 of replacement is: Cu:5.3%, Mn:1.0%, Cd:0.15%, C:0.08%, N:0.04%, Mg:0.03%, Co (CO)^{4 -}: 0.015%, Na₂TiO₃: 0.009, Pt:0.04%；

2, production procedure: melting → refine → standing → cast → extrusion forming → die sinking → cleaning → solid solution → timeliness

3, melt temperature: ＞ 670 DEG C；

4, mold preheating temperature: ＞ 350 DEG C；

5, squeeze pressure: ＞ 5Mpa；

6, dwell pressure: ＜ 10Mpa；

7, the dwell time: ＞ 30s；

8, condition of heat treatment: T4-solid solution adds natrual ageing；

9, goods microstructure index: metallographic structure is equiax crystal, mean grain size 80～100 μm, (T+ θ H) combination phase amount 5～7/[μm] in crystal grain²；

10, products machinery performance: power resistance strength 450Mpa, yield strength 370Mpa, elongation after fracture 19%, Brinell hardness 140.

Embodiment 2

1, the aluminium alloy automobile control arm material component percentage by weight of a kind of QT400 of replacement is: Cu:6.1%, Mn:0.7%, Cd:0.12%, C:0.06%, N:0.04%, Mg:0.02%, Co (CO)^{4 -}: 0.01%, Na₂TiO₃: 0.009, Pt:0.01%；

2, concrete manufacture method is same as in Example 1；

3, goods microstructure index: metallographic structure is equiax crystal, mean grain size 90～110 μm, (T+ θ H) combination phase amount 4～6/[μm] in crystal grain²；

4, products machinery performance: power resistance strength 430Mpa, yield strength 350Mpa, elongation after fracture 21%, Brinell hardness 136.

Embodiment 3

1, the aluminium alloy automobile control arm material component percentage by weight of a kind of QT400 of replacement is: Cu:7.1%, Mn:0.7%, Cd:0.12%, Co (CO)^{4 -}: 0.018%, Pt:0.025%；

2, concrete manufacture method is same as in Example 1；

3, goods microstructure index: metallographic structure is equiax crystal, mean grain size 90～110 μm, (T+ θ H) combination phase amount 4～5/[μm] in crystal grain²；

4, products machinery performance: power resistance strength 420Mpa, yield strength 335Mpa, elongation after fracture 21%, Brinell hardness 134.

Claims (9)

1. the aluminum alloy materials substituting QT400 automobile control arm, it is characterised in that: main constituent content by weight percentage: platinum P:0.005%-0.05%, manganese Mn :≤2%, cadmium Cd:0.05%～0.5%, copper Cu:4.2%～8.0% and Cu >=0.8Mn+4.05%；Lewis Acids and Bases is to total amount 1% × 10^-4～2.0%, alloy mean grain size ＜ 120 microns, surplus is aluminum Al.

A kind of aluminum alloy materials substituting QT400 automobile control arm the most according to claim 1, it is characterised in that: alloy grain is equiax crystal.

A kind of aluminum alloy materials substituting QT400 automobile control arm the most according to claim 1, it is characterised in that: in alloy grain, sub-nanometer (T+ θ H) combination phase amount reaches >=1/square micron.

A kind of aluminum alloy materials substituting QT400 automobile control arm the most according to claim 1, it is characterized in that: the one in the described Lewis Acids and Bases positive and negative ion body to being combined into for metal and part, complicated ligand compound, super large heteropoly compound, or more than one mixing.

A kind of aluminum alloy materials substituting QT400 automobile control arm the most according to claim 4, it is characterised in that: cation body, anion body that described metal and part are combined into comprise cobalt tetracarbonyl anion body Co (CO)₄ ^-。

A kind of aluminum alloy materials substituting QT400 automobile control arm the most according to claim 4, it is characterised in that: described complicated ligand compound or super large heteropoly compound, sodium titanate Na₂TiO₃。

7. according to a kind of aluminum alloy materials substituting QT400 automobile control arm one of claim 1-6 Suo Shu, it is characterized in that: described Lewis Acids and Bases pair, Al matrix percentage by weight is accounted for by element addition, scope is: C ＜ 0.1%, N ＜ 0.05%, Mg ＜ 0.05%, Co (CO)^{4 -}＜ 0.02%, Na₂TiO₃＜ 0.01.

The preparation method of a kind of aluminum alloy materials substituting QT400 automobile control arm the most as claimed in claim 7, it is characterised in that: comprise the steps of

(1) in the range of aforementioned Lewis Acids and Bases is to, element ratio, selected one group of combinations of substances, determine weight ratio, the alloy total amount prepared as required, extrapolate the weight of every kind of required material；

(2) adding aluminium ingot or molten aluminum liquid in smelting furnace, heating is also incubated more than 700 DEG C；

(3) addition manganese Mn, cadmium Cd, copper Cu and platinum Pt, stirring, adds selected Lewis Acids and Bases pair, or the Lewis Acids and Bases that addition is selected is to combination, stirs；

(4) then above-mentioned alloy melt is carried out furnace refining；

(5) remove the gred after refine, stand, sample analysis alloy composition, adjust chemical composition in the deviation range of regulation according to analysis result；Homoiothermic is to more than 650 DEG C, and aluminium alloy is come out of the stove, online degasification, slagging-off；

(6) semisolid pressure casting is made, and refers to that aluminium alloy injects in running gate system, and when semisolid, type, solidification and crystallization are filled in pressurization.

The preparation method of a kind of aluminum alloy materials substituting QT400 automobile control arm the most according to claim 8, it is characterised in that: described semisolid pressure casting, step is as follows:

1. pourable casting after filtering；

2. mould should be preheated before casting, by compressed air, mold cavity be blown clean；

3. taking automatic casting, dip aluminium alloy and pour ingot-containing tube into, ingot-containing tube is moved to mould gate in stove, point speed controls extrusion speed, shifts onto in mould by the aluminium alloy in ingot-containing tube, improves pressure forming, pressurize solidification and crystallization during semisolid；

4. product, natural cooling, sawing rising head, polishing overlap are taken out in die sinking；

5. appearance quality detection: rough casting, before carrying out presentation quality inspection, should be cleaned out smooth, the dead head of non-machined surface should be cleaned to cast(ing) surface and flush；

6. internal soundness detection；

7. solution treatment: solid solution furnace sent into by the blank that foundry goods completes roughing and inside and outside quality testing, carries out less than 560 DEG C solution treatment, quenches at once after being incubated, uses water-cooled or oil cold；

8. ageing strengthening: the foundry goods completing solution treatment is sent into aging furnace and carries out ageing strengthening process, ageing strengthening below 230 DEG C, after insulation, natural cooling of coming out of the stove；

9. sample analysis test checking；

10. Practical Performance checking.