CN102268625A - Method for hot dipping aluminum for steel structure - Google Patents

Abstract

The invention relates to the technical field of metal surface coatings, in particular to a hot dipping method for a steel structure. A hot dipping alloy consists of the following components in percentage by mass: 75 to 85 percent of Al, 3 to 5 percent of Mg, 3 to 5 percent of Si, 0.01 to 0.02 percent of rare earth Y, 0.04 to 0.10 percent of Ni, 0.04 to 0.10 percent of Bi, 0.04 to 0.10 percent of V, and the balance of Zn and inevitable impurities; and in the hot dipping process, a pulsed electric field is applied to a weld pool, and the parameter ranges of the pulsed electric field are that: the pulse width is 80 to 100ms, the acting frequency is 1 to 2Hz and the peak density of pulse current introduced into the weld pool is 0.1 to 10A/cm<2>. By the synergism of the rare earth Y, Ni, Bi and V, the fluidity and wettability of aluminum are improved; the strength and corrosion resistance of a coating are improved by nano Si and Mg2Si phases separated under the action of the pulsed electric field; and the pulsed electric field also has effects of refining grains and improving the compactness of the coating. By the invention, the coating quality is improved, metal consumption is reduced, a process is simple, the conventional process and equipment are mature, the cost is low and the method is worth promoting.

Description

A kind of steel construction piece hot dip aluminum plating method

Technical field

The present invention relates to coating technology field, metallic surface, particularly a kind of hot dip coating method of steel construction piece.

Background technology

Corrosion is the important way of ferrous materials loss, and is annual because the ferrous materials that corrosion is lost reaches tens million of tons, and is the effective way that improves the corrosion resistance of metals energy, reduces metallic corrosion consumption at metallic surface hot dip process preservative coat at present; At the ferrous materials of different purposes, because aspects such as environment for use, material structure and performance is different, the hot dip process metal coated material that adopts mainly comprises at present: Zn system, rare earth Zn system, Zn-Al system, Al system, rare earth Al system etc.; In recent years, hot dip aluminum plating has remarkable advantages aspects such as cost, environmental protection and coating performance and life-spans, receives increasing concern.

In the alloy for hot-dip of high aluminium content, the Galvalume alloy adopts the 55%Al-1.6%Si-Zn alloy layer to be considered to the alloy that prior art interalloy element coupling is best, the coating over-all properties is the best, it has had both the erosion resistance of zinc coating and the multiple excellent properties such as high temperature resistance of aluminium coated, uses so obtained widely; Also there is the deficiency of high-aluminium alloy wettability difference and mobile difference in existing hot dip aluminum plating, so the quality of the homogeneity of coating and coating and performance have much room for improvement; Chinese patent application number: 200910044817.8 and 200910134953.6 propose to adopt Mg ₂Si improves the corrosion resistance nature of coating, and introduces Ti, B and rare earth La or Ce crystal grain thinning respectively; Chinese patent application numbers 200910262758.1 also proposes to utilize Mg ₂Si, TiO ₂, CeO ₂Improve coating performance Deng particle, this shows, introducing enhanced granule in aluminium coat is to improve the effective way of coating performance; But really exist 2 significantly deficiencies in the prior art: the one,, prior art has only proposed to utilize enhanced granule to improve the scheme of coating performance, but be only the most critical of the quality of coating factor that influences for the size of formation particle phase in the hot dip process process coating and the influence that pattern reaches coating crystal grain, studies have shown that, for warm feeling coating, enhanced granule only is controlled at below the 30-40nm, just has significant raising coating etch resistant properties, the effect of quality such as coating density, particularly for the hot dip aluminum plating of steel construction piece, the hot dip process time is long, size and formation condition to coated metal liquid precipitated phase and enhanced granule in the prior art are uncontrollable, therefore, enhanced granule is to the also uncontrollable and effective improve of the influence of coating performance; The 2nd,, introduce enhanced granule in melt or in the coating, the mobile variation of melt, therefore, to further optimize the composition of alloy for hot-dip, controlling particle on the one hand is to form in the process of setting in coating formation mutually as far as possible, to pass through on the other hand to introduce surface tension and its flowability of raising that alloying element reduces alloy for hot-dip liquid, thus but the hot dip process performance of raising melt.

In sum, hot dip aluminum plating to steel construction piece, the particle of introducing Nano grade in coating is the feasible way that improves coating performance, is optimized but need form alloy for hot-dip, and the control particle is separated out in process of setting, and particle and precipitated phase are controlled at nanoscale by the outfield means, simultaneously, introduce alloying element, reduce the viscosity and the surface tension of melt, that improves metal can be hot-dip, thereby improve the performance and the surface quality of coating.

Summary of the invention

The objective of the invention is: invent a kind of be used for the steel construction piece hot dip aluminum plating polynary aluminium alloy, and melt is applied the hot dip coating method of pulsed electrical field in the hot dip process process, by optimizing the composition of multicomponent alloy, in the coating forming process is that the process of setting of coated metal is separated out the particle phase, and particle is controlled at the best scale that can improve material property mutually by the pulsed electrical field that adds, solve in the uncontrollable coating of prior art precipitated phase and particulate is separated out and the problem of growing up; Simultaneously, introduce in the hot dip aluminum plating multicomponent alloy of optimization and reduce melt viscosity and capillary element, but the hot dip process performance of raising aluminium alloy, thus the performance and the surface quality of raising coating.

The scheme imagination that realizes the object of the invention is:

Introduce Mg and Si in the hot dip aluminum plating of the present invention simultaneously, hot dip aluminum plating the coating forming process be to separate out Mg in the process of setting ₂The Si particle, the addition of Mg and Si is with control Mg ₂The Si particle only forms and separates out in process of setting and is principle, and in the hot dip process process melt is applied pulsed electrical field, utilizes pulsed electrical field control Mg ₂Si particulate size.

Introduce Ni in the hot dip aluminum plating of the present invention simultaneously, Bi, V and Rare Earth Y, these elements act synergistically in suitable interpolation scope can effectively reduce the viscosity and the surface tension of alloy, separates out Mg to remedy owing in the alloy graining process melt ₂But the aluminium alloy hot dip process performance that the viscosity that the Si particle causes increases severely and wettability descends to be caused descends, thereby improves the hot dip process performance of aluminium alloy; In addition, owing to contain the introducing of multiple alloying element, particularly Mg and Si in the hot dip aluminum plating alloy of the present invention, the grain boundary precipitate of aluminium alloy is more, and Rare Earth Y has the very strong purification grain boundary precipitate and the effect of crystal grain thinning, thereby improves the performance of coating.

Owing to introduce Mg among the present invention ₂The Si particle is for making Mg ₂Si particulate size is controlled, must apply the outfield to control the particulate size at nanoscale, pulsed electrical field of the present invention, the electric transient discharge effect that produces in melt be the effective precipitate in the refinement process of setting not only, but also has significant crystal grain thinning effect; Introduce the effect that Y, Ni, Bi, V have crystal grain thinning among the present invention, but hot dip aluminum plating for steel construction piece, because setting time is long, the crystal grain of the element refinement aluminum alloy coating that single dependence adds is difficult to satisfy the requirement of high-performance coating, therefore must utilize the crystal grain of pulsed electrical field effect refinement coating.

As mentioned above, aspect the hot dip aluminum plating alloy, creativeness of the present invention is to introduce Mg and Si, separates out Mg in the coating forming process ₂The Si particle, and by outfield control particle at nanoscale; Introduce Rare Earth Y, Ni, Bi and V synergy in the alloy, reduce the viscosity and the surface tension of alloy, improve the hot-dip of alloy; In addition, owing to introduce Mg among the present invention ₂The Si particle, and long to the steel construction piece hot dip process time, must introduce the Mg that outfield refinement process of setting is separated out ₂S particle and to the further refinement of coating crystal grain reaches the purpose that improves the coating over-all properties.

Based on above-mentioned thinking and principle, realize that technical scheme of the present invention is:

Hot dip coating method under a kind of steel construction piece hot dip aluminum plating multicomponent alloy and the pulsed electrical field, it is characterized in that adopting employing a kind of to the steel construction piece hot dip aluminum plating is the multicomponent alloy of major components by Al-Mg-Si-Zn, the consisting of of described hot dip aluminum plating multicomponent alloy (massfraction %): Al 75-85%, Mg 3-5%, Si 3-5%, Rare Earth Y 0.01-0.02%, Ni 0.04-0.10%, Bi 0.04-0.10%, V 0.04-0.10%, surplus is Zn and unavoidable impurities; Adopt the hot dip coating method of steel construction piece hot dip aluminum plating multicomponent alloy of the present invention, difference with the prior art is in the hot dip process process molten bath to be applied pulsed electrical field, the parameter area of described pulsed electrical field: pulse width is 80-100 ms, the effect frequency is 1-2 Hz, and the pulse current peak density that feeds melt is: 0.1-10 A/cm ²

In addition, concrete implement hot dip coating method of the present invention and steel construction piece hot dip aluminum plating at present method basic identical, its difference is that the alloy for hot-dip Composition Control that adopts is different and in the hot dip process process alloy molten bath is applied pulsed electrical field, the equipment aspect, pulsed electrical field equipment can adopt plant-scale commercial equipment, the introducing of pulsed electrical field can adopt fixed electorde or traveling electrode to introduce flexibly in the molten bath, for preventing that Aluminum from polluting, the general Graphite Electrodes that adopts, electrode can be fixed on the sidewall and the bottom of a pan of the aluminum pot that is used for hot dip process, also can put into and hang under the prerequisite of extract operation not influencing steel construction piece, insert from top, molten bath; Therefore, the technology of implementing this invention is simple, flexible operation, and the existing processes equipment is ripe, and cost is low, is worthy to be popularized.

The composition range of steel construction piece hot dip aluminum plating multicomponent alloy of the present invention is determined according to following principle:

(1) the Al content range is determined

The corrosion resistance of high-aluminium alloy improves with aluminium content, existing mutually for the Galvalume alloy (55%Al-1.6%Si-Zn) that present hot dip aluminum plating extensively adopts, the content of aluminium element among the present invention (massfraction %) is brought up to 75-85%, helps improving the corrosion resistance of coating; But, Aluminum in Alloy content improves again, wettability to steel obviously descends, and occurs even, the discontinuous phenomenon of plating leakage and uneven coating easily, adopts among the present invention the content (massfraction %) of Aluminum in Alloy element is brought up to 75-85%, under elements such as Mg, Si, Ni, Bi, Y synergy and pulsed electrical field oscillation action, the hot dip process of alloy is satisfactory for result, not only improved corrosion resistance, and coating is even, smooth, have extraordinary quality of coating.

(2) content range of Mg and Si is determined

The span of control of Mg and Si content is (massfraction %) 3-5% among the present invention, and Mg and Si can reduce the fusing point and the viscosity of aluminium alloy, after addition is higher than this scope, can separate out the Mg of some amount in the melt ₂Si can make the hot-dip remarkable decline of alloy, and therefore, Mg and Si content should be controlled under the hot dip process temperature, do not separate out Mg in the melt ₂The Si particle is a limit, and its span of control is 3-5%; Wherein the best relative proportion of Mg and Si (massfraction ratio) is controlled at the scope of Mg:Si=2:1-3:2; Because the scaling loss situation of Mg and Si is different, therefore, its content allows surplus to a certain degree.

(3) the Rare Earth Y content range determines

The effect of rare earth element y comprises: reduce the viscosity and the surface tension of alloy, thereby improve the hot-dip of alloy; The cleaning molten effect particularly purifies the crystal boundary of coating; The effect of crystal grain thinning; The Rare Earth Y addition is in＜0.1% scope, have significant purification and thin brilliant effect, its addition increases again, can increase the quantity of slag in molten bath, among the present invention rare earth adding quantity is controlled at the 0.01-0.02% scope, under the booster action in other element synergy and outfield, obtain ideal hot dip process effect.

(4) Ni, Bi and V content range determines

The purpose of adding Ni, Bi and V element is to reduce the viscosity and the surface tension of aluminium alloy melt, and simultaneously, these elements have the effect of crystal grain thinning, addition＜0.1% o'clock, and these beneficial effects are obvious; But work as addition〉after 0.1%, not only can increase cost, can cause that also the precipitate between the coating crystal boundary increases, influence corrosion resistance, therefore, the addition of Ni, Bi and V element is more satisfactory at 0.04-0.10%.

(5) surplus Zn and unavoidable impurities

All the other elements in the hot dip aluminum plating multicomponent alloy of the present invention are Zn and unavoidable impurities, and the Zn amount increases the temperature that can reduce hot dip process, and therefore the scope of surplus Zn generally should be greater than 5% in the alloy for hot-dip of the present invention; Described impurity content should be less than 0.06%.

Adopting another key character of the present invention is in the hot dip process process molten bath to be applied pulsed electrical field, and the current parameters scope of described pulsed electrical field is determined according to following principle:

(1) about pulse width and effect frequency

In conjunction with pulse electric field technology condition and pulsed electrical field are to the action rule of alloy for hot-dip process of setting at present, the pulse width of pulsed electrical field determines that at 80-100ms the effect frequency of pulsed electrical field is 1-2Hz.

(2) about the peak strength of pulsed current

The pulse current peak density that feeds melt is: 0.1-10 A/cm ², the visual fusion pond holds the aluminium amount and power supply capacity is determined.

Major advantage compared with prior art of the present invention is as follows:

(1), the present invention and existing hot dip aluminum plating or hot dip aluminum plating alloy phase ratio, have following prominent feature: fine corrosion resistance, in the salt air corrosion environment, corrosion resistance improves about 20% than the Galvalume alloy layer that adopts at present extensively; The immersion plating excellent property, smooth surface, defectives such as smooth no plating leakage, dross have overcome that prior art adopts high-aluminium alloy coating because surface imperfection such as the plating leakage that hot dip process performance difference causes, uneven coating be even.

(2), the present invention adopts the multielement synergy to improve the hot dip process performance of high-aluminium alloy, be aided with under the effect of pulsed electrical field shock oscillation, changed the thermodynamics and kinetics that cenotype is separated out, control coating endoparticle is separated out in process of setting, and refinement precipitated phase particle size is below 30-40nm, having overcome uncontrollable particulate in the prior art, to separate out the grow up hot dip process performance that causes of opportunity and particle poor, problems such as coating is rough, plating leakage.

(3), adopt the aluminium zinc hot dip process of low aluminium with prior art and adopt in the Galvalume alloy phase ratio of aluminium content, aluminium content increases, not only improved the corrosion resistance of coating, and reduced zinc content in the alloy, zinc is compared with aluminium, price is high and volatile and oxidation loss is big, so, improve aluminium content, reduce zinc content, can reduce the coating cost, compare by present aluminium, zinc price, save cost more than 20%; In addition, aluminium is in 690-750 ℃ of scope of hot dip process temperature, and aluminium volatilizees hardly, therefore, helps the innoxious of execute-in-place environment.

(4), introduced Mg owing in the coating among the present invention ₂The Si particle, therefore the hot dip process process must apply outfield control particle size within useful scope, the present invention adopts pulsed electrical field, utilize pulse to discharge and recharge technology, reach very high oscillation intensity in moment, this transient state electricoscillation not only effectively refinement the precipitated phase particle, to the effect of grain refining also highly significant, compare Mg with not applying the outfield ₂Si particle phase size is by the above rank of 100nm, refine to below the 30-40nm, the average grain size of coating aluminium refine to Nano grade (50nm is following) by micron level (0.2-0.5 μ m), and these beneficial effects directly cause the raising of coating corrosion resistance, coating tightness and antistrip performance.

(5), adopt the present invention, can utilize existing sophisticated metallurgical equipment, do not need the new tooling of development research, facility investment is few, technology is simple, cost is low, is worthy to be popularized.

Embodiment

Be that checking adopts effect of the present invention, the steel construction piece of No. 20 steel matter carried out following a series of hot dip aluminum plating simultaneous test:

Series 1: adopt the present invention fully, promptly adopt hot dip aluminum plating multicomponent alloy of the present invention simultaneously and adopt the method that in the hot dip process process, applies pulsed electrical field; (remarks: numbering 1-4 group in the table 1).

Series 2: only adopt hot dip aluminum plating multicomponent alloy of the present invention, the hot dip process process does not apply pulsed electrical field; (remarks: numbering 5-8 group in the table 1).

Series 3: existing hot dip aluminum plating alloy, adopt the Galvalume alloy; (remarks: numbering is the 9th group in the table 1).

Series 4: choose and adopt Mg in the prior art (Chinese patent application number 200910044817.8) ₂The alloy that the Si particle improves coating performance carries out the hot dip process test; (remarks: numbering 10-11 group in the table 1, for comparative illustration applies the effect of pulsed electrical field, the alloy of prior art has also been carried out applying the test of pulsed electrical field).

By relatively coating performance is estimated in visual appearance, thickness of coating, coating hardness, the salt air corrosion zero-G test of coating; Evaluation result sees Table 2; Remarks: table 1 is consistent with numbering in the table 2.

Whether distinguish and apply the pulsed electrical field in the hot dip process process except that the alloying constituent that adopts, identical, the promptly traditional hot-dipping aluminium-plating method of method and apparatus that the simultaneous test of being carried out adopts need not too much explanation.

Table 1 hot dip process scheme (alloy liquid composition and condition)

(annotate: * for not applying or not adding)

The hot dip aluminum plating testing program of his-and-hers watches 1, the method and apparatus that the simultaneous test of carrying out adopts is identical, it is traditional hot-dipping aluminium-plating method, its pre-treatment and aftertreatment all need not too much explanation, parameter in the hot dip process process is: 710 ℃ of hot dip process operation temperature of aluminum liquid, the time 7min that aluminizes, immersion plating mode: instrument lifting suspention; Pulling speed 10m/min. table 2 is hot dip process effect comparable situation.

The contrast effect of table 2 embodiment and prior art

The explanation of note table 2:

1) numbering in the table 2 is consistent with numbering in the table 1;

2) thickness of coating scope and mean value are measured definite maximum value and minimum value for getting 5 points in the table 2, determine average thickness values with the method for averaging;

3) coating apparent mass: the smooth finish aspect, any surface finish smoothly is best; Rough taking second place, rough have convex dot shape coarse the poorest; Have or not the plating leakage aspect, no plating leakage is best, has obvious plating leakage the poorest, is defined as defective; The hardness aspect, the hardness height illustrates the coating densification, good corrosion resistance, micro-hardness measurement are got 5 mean values;

4) salt air corrosion experiment: etch in 5% the NaCl solution, 30 ± 2 ℃ of test temperatures are measured the time that plating piece keeps rustless state, h;

5) intensity and wear-resisting rank: carry out wear test with file under the same conditions, because of there not being unified standard at present, this case is divided into A, B, four grades of C, D with the result, and A is that intensity is the highest, and coating does not have peels off flawless; B is that intensity is taken second place, and coating has crackle, and nothing is peeled off; C is that intensity is low, and coating has crackle and peels off phenomenon; D is worst, and intensity is low, and plating exfoliation is obvious.

Comparative test result is as can be known:

1) adopts the present invention, thickness of coating good uniformity (the thickness fluctuation scope is little), coating microhardness reaches more than the 9000MPa, coating grain-size and precipitated phase size Nano grade (＜40nm), the corrosion resistance of coating and intensity, peeling resistance are best; Particularly the effect of the 4th group of test is the most desirable, illustrates that the matching of alloying element is best, and the pulsed electrical field parameter effect that applies is the most desirable;

2) test-results of organizing (only adopting aluminium multicomponent alloy of the present invention) by contrast 1-4 group (adopting the present invention fully) and 5-8 as can be known, only adopt aluminium multicomponent alloy of the present invention to carry out hot dip aluminum plating, difference aspect thickness of coating is that the thickness of coating fluctuation range becomes big, the continuity that coating is described is bad, the apparent mass of coating is poor in addition, be embodied in two aspects of smooth finish and hardness, particularly, with adopt 1-4 of the present invention group fully and compare, grain-size, precipitated phase size significant difference, cause coating hardness, corrosion resistance and intensity have very big difference, and this explanation adopts effect of the present invention remarkable fully;

3) adopt the Galvalume alloy phase ratio of the present invention's (1-4 group) and the optimal heat dip calorizing that adopts prior art to report under the same conditions, thickness of coating is attenuate slightly, this is that aluminium content raises, Zn content reduces the inevitable outcome that causes, but surface quality, hardness, corrosion resistance and coating strength are all not as employing the present invention during the Galvalume alloy;

4) with in the prior art (Chinese patent application number 200910044817.8) adopt Mg ₂The alloy that the Si particle improves coating performance carries out hot dip process, the present invention not only improved Aluminum in Alloy content, optimized the content of Mg, Si element, and introduce Y, Ni, Bi, V synergy improves the hot dip process performance, particularly apply pulsed electrical field in the hot dip process process, so quality of coating of the present invention is better than the coating of prior art at aspects such as thickness evenness, surface quality, microhardness and corrosion resistances comprehensively.

In addition, for existing steel construction piece hot-dip aluminum plating technology, adopt the present invention, also have the tooling maturation, advantage such as cost is low is worthy to be popularized.

Claims (2)

1. A steel construction piece hot dip aluminum plating method, it is characterized in that: in the hot dip aluminum plating process, the alloy for hot-dip molten bath is applied pulsed electrical field, the current parameters of described pulsed electrical field is: pulse width is 80-100 ms, the effect frequency is 1-2 Hz, and the pulse current peak density that feeds melt is: 0.1-10 A/cm ²
2. 2. a kind of steel construction piece hot dip aluminum plating as claimed in claim 1 method, it is characterized in that: adopt the hot dipped multi-element aluminium alloy to replace existing hot dip aluminum plating alloy steel construction piece is carried out hot dip process, simultaneously in the hot dip aluminum plating process, the alloy for hot-dip molten bath is applied pulsed electrical field, described hot dipped multi-element aluminium alloy consists of (massfraction %): Al 75-85%, Mg 3-5%, Si 3-5%, Rare Earth Y 0.01-0.02%, Ni 0.04-0.10%, Bi 0.04-0.10%, V 0.04-0.10%, surplus is Zn and unavoidable impurities.