CN1657223A

CN1657223A - Welding wire filling method for laser welding to narrow gap of Al-alloy

Info

Publication number: CN1657223A
Application number: CN 200510063464
Authority: CN
Inventors: 肖荣诗; 康黎; 杨武雄; 陈铠; 左铁钏
Original assignee: Beijing University of Technology
Current assignee: Beijing University of Technology
Priority date: 2005-04-11
Filing date: 2005-04-11
Publication date: 2005-08-24
Anticipated expiration: 2025-04-11
Also published as: CN1302889C

Abstract

A welding wire filling method for the laser welding to narrow gap of Al-alloy features that a (1-10)-mm gap with bevel edge is preserved at the position to be welded before welding, the incident of laser beam is 30-75 deg.C, the welding wire and protecting gas are coaxially fed in said gap, and the welding wire is molten by laser beam to be filled in said gap for binding workpieces.

Description

Adopt the narrow gap of Al-alloy method for laser welding of filler wire

Technical field

A kind of narrow gap of Al-alloy method for laser welding of filler wire that adopts belongs to the Materialbearbeitung mit Laserlicht technical field.

Background technology

Aluminium and alloy thereof are one of light metals that purposes is the widest in the non-ferrous metal.It has that density is little, in light weight, specific strength is high, conduction and thermal conductivity are good and have corrosion resistance preferably, nonmagnetic, good mouldability, cryogenic property, along with aviation, navigation, developing of automobile industry; The emergence of petrochemical industry, telecommunications and infant industries such as atomic energy and space technology, the use amount of aluminium alloy is increasing day by day, thereby occupies very consequence in national economy.

In manufacturing industry such as aircraft, automobile and rolling stock, high strength alumin ium alloy mainly uses as thin-wall construction.For a long time, the processing technology-riveted joint that falls behind is still used in the main connection of aluminium alloy plate equipment structure in these industries up at present.With regard to its reason, mainly be that traditional welding method (as flame, electric arc, plasma etc.) thermal source is to disperse, energy density is lower, and the thermal conductivity of aluminium alloy is extremely strong, therefore speed of welding is low, hot input quantity is big, cause property of welded joint relatively poor, and the big thermal coefficient of expansion of aluminium alloy makes that welded deflection is big.

Different with traditional welding heat source, laser has good transmission and focus characteristics, can be with whole concentration of energy a bit after the process focus lamp group.Therefore, laser weld can be used the zone of minimum energy in minimum.Because energy height is concentrated, so also shorten greatly action time, promptly process velocity improves greatly, thereby obtains ultrafine seam organization, and the heat affecting minimum in nearly seam district.Guaranteed that simultaneously welding point has good performance, welded distortion is also very little.

But the laser weld of aluminium alloy also is considered to impossible at the eighties initial stage, and this mainly is that appearance of weld is poor because aluminium alloy to the height reflection and the high-termal conductivity of self of laser, makes aluminium alloy low to the absorptivity of laser.In addition, also there is some other difficult point in the laser weld of aluminium alloy:

1) because of its ionization energy is low, photo plasma is easy to overheated and expansion in the welding process, and welding process is stable poor.

2) aluminium alloy belongs to typical eutectic alloy, more is easy to generate fire check under laser weld rapid solidification condition;

3) because the cooling velocity of laser weld is too fast, bubble is difficult for come-up separates out, and is easy to generate pore.

4) liquid aluminium alloy good fluidity, surface tension are low, the instability of welding process causes the welding pool thermal agitation, undercut appears easily, appearance of weld is discontinuous, causes aperture closed suddenly and produce the bigger technology hole of diameter or aperture is blown out liquid metal the molten bath and forms hole by the plasma to external eruption at weld seam before closed when serious.

Along with more and more at the aluminium alloy Study on Laser Welding, a large amount of laser weld begin to be applied to many fields.But increase along with aluminium alloy welding thickness, required laser power increases, the metal surface forms fine and close plasma in the gasification of following moment of high-energy-density laser action, it has shielding action to laser, make that welding process is difficult to guarantee, because the instability of welding process causes weld defect to become the slab (〉=2mm) subject matter of aluminium alloy laser weld.

The use of filler wire can be intervened by the article on plasma body effectively, improves the absorbing state to laser, make whole welding process stable, obtain uniform zero defect weld seam, simultaneously, the use of packing material has stoped the formation of crackle effectively, has improved the performance of weld seam.

But increase along with the aluminium alloy plate throat thickness, its fusion penetration increases, and welding wire can not be deep into weld seam inside, owing under certain welding condition, there is best wire feed parameter, those are to the highstrung high strength alumin ium alloy of fire check, adopt filler wire often can not provide enough packing materials, particularly when speed of welding higher or thickness of slab when big in the welding pool mother metal and solder wire material mix inhomogeneously, also can produce fire check in the weld seam bottom.And the degree of depth of aperture strengthens, and the molten bath that comes from that is subjected to around the aperture increases its pressure, this just make aperture in welding process, be difficult to more keep stable, thereby cause the instability of welding process, even thick plates can't be carried out.

Because the disposable depth of weld of aluminium alloy laser weld is limited, (〉=15mm) aluminium alloy is difficult to realize effectively connecting for some ultra-thicks.Usually for the aluminium alloy welding of ultra-thick, the fill silk process of laser weld of the multilayer that generally adopts bevel or reserve certain narrow gap.The high strength alumin ium alloy Laser Welding Quality of filler wire depends on the aligning accuracy of welding wire and to effective protection of welding process; the interference that welding wire is sent process to can cause the generation of weld defect immediately; inappropriate mode of supplying gas can make that also the stability of welding process is difficult to guarantee; simultaneously; the protection deleterious has a large amount of pores and produces in the weld seam.Traditional welding method, owing to be subjected to the restriction of gap or groove, wire feed and the stability of supplying gas all can be affected, and make the welding quality variation.

Many above-mentioned difficult point at present big thick aluminium sheet alloy laser weld existence; we have invented a kind of method for laser welding: adopt that filler wire, photo plasma control gas and molten bath protective gas are coaxially vertically sent to, the laser beam oblique incidence; successfully realize the narrow gap laser light multilayer welding of big thick aluminum alloy plate with the multikilowatt laser instrument, and can avoid high strength alumin ium alloy slab laser weld crackle fully.

Summary of the invention

The object of the present invention is to provide a kind of aluminium alloy laser welding method that is applicable to big thickness.This method is by changing the input mode of laser, welding wire and protection gas, improved greatly welding process stability, more effective protection has been realized in the molten bath, improved working (machining) efficiency.

Technical scheme of the present invention is referring to accompanying drawing (1), adopt the narrow gap of Al-alloy method for laser welding of filler wire, it is characterized in that: before the welding, the gap of 1～10mm size is reserved in the joint, laser becomes 30 °～75 ° oblique incidences with surface of the work, welding wire is perpendicular to surface of the work or be 15 ° with the surface of the work normal angle and send in the above-mentioned gap with interior that the laser beam filler wire is filled this gap, thereby realizes the connection of workpiece.

The narrow gap of Al-alloy method for laser welding of above-described employing filler wire is characterized in that: with the coaxial conveying protection of welding wire gas.

The narrow gap of Al-alloy method for laser welding of above-described employing filler wire is characterized in that: the form in gap is the V-type or the U type groove on a band limit.

Basic principle of the present invention is:

The narrow gap of 1～10mm size is reserved in the workpiece connection place, and welding wire is sent into the gap perpendicular to surface of the work, and laser oblique incidence filler wire is filled narrow gap.The a large amount of plasmas that produce in the welding process, because laser incident angle becomes 30 °～75 ° with surface of the work, the direction of motion of plasma is not coaxial with laser beam, plasma weakens the incident state influence of laser, and welding wire is almost consistent with the plasma direction of motion, if select the suitable wire feed parameter of supplying gas for use, the absorption of the mother metal article on plasma body heat content by welding wire and both sides, narrow gap, just more effectively the article on plasma volume morphing is intervened, improve the absorbing state of molten bath, make welding process more stable laser.

Simultaneously, filler wire has been restrained the growth of elongated outstanding Zhi Jing, and texture obtains refinement, has avoided the generation of fire check in the weld seam.In addition; the mode that coaxial wire feed is supplied gas is in protection gas and the plasma control gas welding wire, molten drop and molten bath all the time, and the stability of welding process and protection effect all improve greatly; crackle, pore occurrence probability reduce in the weld seam, and welding quality is greatly improved.

And when the big thick aluminium alloy of V-type of splitting band limit and U type carried out laser weld, its bevel was less with respect to the wire feed nozzle of supplying gas, and nozzle can not enter groove welding wire is directly sent to the molten bath.And to guarantee that the welding process droplet transfer stable, and appearance of weld is good, and the linearity of welding wire is extremely important.Adopt vertical wire feeding mode of the present invention to reduce the length of jet expansion to the molten bath with respect to the side direction wire feed of certain angle, this has improved the stability of the linearity and the wire feed of welding wire, thereby the stability of welding process is increased, and welding quality is improved.

When big thick aluminium alloy sheets is carried out the multilayer laser weld, except that ground floor, the quality of one deck weld layer quality before the quality of later every layer of weld seam directly depends on, the out-of-flatness of each layer face of weld all can cause back one deck appearance of weld bad.For the big thick aluminium alloy sheets welding of opening narrow gap, because a laser weld aluminium alloy plate degree of depth is limited, need carry out the multilayer welding usually, welding method welding quality commonly used is relatively poor, and welding stability is restive, and working (machining) efficiency is low.The comprehensive above-mentioned plurality of advantages of the present invention, welding process stability strengthens greatly, and welding quality is greatly improved, and finally obtains even zero defect weld seam, has improved working (machining) efficiency.

Description of drawings:

Fig. 1: adopt the laser aluminium alloy welding method schematic diagram of the filler wire in narrow gap, 1, laser beam 2, welding wire 3, molten bath 4, weld seam 5, protective gas 6, narrow gap 7, welding work pieces 8, the wire feed nozzle of supplying gas

Fig. 2: workpiece institute bevel sectional view among the present invention: 10. limits of 9.U shape groove

Fig. 3: adopt laser vertical incident commonly used, the welding method that welding wire and protective gas tilt to import, welding aluminum alloy section of weld joint moulding figure.

Fig. 4: adopt the inventive method welding aluminum alloy face of weld moulding figure.

Fig. 5: adopt the inventive method welding aluminum alloy outside drawing in kind.

Fig. 6: adopt the inventive method welding aluminum alloy section of weld joint moulding figure.

The specific embodiment

Below be that embodiments of the invention and effect compare.

CO is adopted in experiment ₂Laser parameter is: wavelength 10.6 μ m, power 3500W.

Testing used aluminum alloy materials is: 2219, and thickness of slab: 20mm.

Narrow gap form: a band two-sided symmetrical U-shaped groove in limit, limit size a: 4mm, U-shaped groove size: 3mm.

Laser incident angle: 30 °, gas is coaxial sends into narrow gap perpendicular to surface of the work for welding wire and protection.

Fig. 3 and Fig. 6 are at CO ₂Laser instrument welding aluminum alloy 2219, CO ₂Laser parameter is above condition; workpiece is reserved under the condition identical with the protection throughput of narrow gap, speed of welding, wire feed rate; adopt laser vertical incident commonly used, the welding method of welding wire and protective gas and surface of the work inclination input at 45 and the section of weld joint moulding figure of employing welding method of the present invention are relatively.Fig. 4, Fig. 5 are for adopting welding aluminum alloy 2219 face of weld moulding figure of the present invention and weld size size figure.As seen from Figure 3, adopt the pore of welding method gained weld seam of common usefulness many, poor welding quality.As seen from Figure 6, adopt the pore of gained weld seam of the present invention obviously to reduce, flawless, welding quality is greatly improved.As seen from Figure 4, face of weld is smooth, and flatness is good, illustrates that welding process of the present invention is stable; As seen from Figure 5, throat thickness of the present invention can reach 20mm.

Claims

1. narrow gap of Al-alloy method for laser welding that adopts filler wire, it is characterized in that: before the welding, the gap of 1～10mm size is reserved in the joint, laser becomes 30 °～75 ° oblique incidences with surface of the work, welding wire is perpendicular to surface of the work or be 15 ° with the surface of the work normal angle and send in the above-mentioned gap with interior, the laser beam filler wire is filled this gap, thereby realizes the connection of workpiece.

2. the narrow gap of Al-alloy method for laser welding of employing filler wire according to claim 1 is characterized in that: with the coaxial conveying protection of welding wire gas.

3. the narrow gap of Al-alloy method for laser welding of employing filler wire according to claim 1 is characterized in that: the form in gap is the V-type or the U type groove on a band limit.