CN109175690A - A kind of welding method of nickel plating phosphoretic steel - Google Patents

Abstract

The embodiment of the present invention provides a kind of welding method of nickel plating phosphoretic steel, which includes: by first laser module for exporting first laser；By second laser module for exporting second laser；By laser adapter for exporting recombination laser, so that being welded by recombination laser to to-be-welded region, recombination laser includes first laser and second laser, the focal beam spot diameter of first laser is less than the focal beam spot diameter of second laser, and first laser and second laser are coaxial in recombination laser, to-be-welded region is the contact area of two blocks of nickel plating phosphoretic steels.The two beam laser different by using two kinds of focal beam spot diameters of the embodiment of the present invention, guarantee weld penetration and welding efficiency by the laser of small focal beam spot diameter, by the laser damage of big focal beam spot diameter place's phosphorous layer to be welded, expand and molten bath volume and delay molten bath cooling velocity, the problem of to reduce a large amount of stomatas occurred in welding process.

Description

A kind of welding method of nickel plating phosphoretic steel

Technical field

The present embodiments relate to technical field of laser welding more particularly to a kind of welding methods of nickel plating phosphoretic steel.

Background technique

Chemical nickel phosphorus plating is suitable for ironware, steel part, phosphorus alloy, leaching phosphorus treated aluminium alloy and copper alloy surface nickel-plated phosphor Alloy-layer.Nontoxic, heavy metal free, environmental protection.It is not required to electroplating device.Thermostat is only needed, coating is bright ni-p alloy coating, resistance to Corrosion is fabulous, and binding force is splendid.Bath stability is strong, and the service life is more than 12 periods.It is widely used in various metals, nonmetallic table Face chemical nickel phosphorus plating.

Chemical nickel plating phosphorous based alloys coating can obtain nickel-phosphorus alloy coating uniformly, fine and close, bright, there is metallic luster.Cause Its hardness is high, thickness is uniform and wearability is excellent, is widely applied in the industry, also the therefore welding demand of nickel plating phosphoretic steel It is more and more, and require the few as far as possible losses of nickel plating phosphoretic steel plating phosphorous layer after welding, and high efficiency, high quality can be obtained Weld seam.

Conventional bonding technique mainly uses the methods of manual electric arc welding, gas metal-arc welding, argon arc welding, electric resistance welding Come what is be attached.Since the fusing point of phosphorus is about 280 DEG C, boiling point is about 590 DEG C, and the fusing point of steel is about 1540 DEG C, using biography When technique of uniting welding, when steel reaches fusing point, phosphorus gasifies already, causes to be also easy to produce a large amount of stomatas, effect of the phosphorous layer in arc heat Lower explosive vaporization, into molten bath, when solidification, phosphorus steam, which remains in, interior forms a large amount of stomatas；When single fiber laser welding, because hot Input is big, and action time is short, and weld penetration is big, but weld seam still remains a large amount of stomatas, and uses single fiber laser or list The conventional lasers such as semiconductor laser weld the problem of there is also a large amount of stomatas.

Summary of the invention

The embodiment of the present invention provides a kind of welding method of nickel plating phosphoretic steel, exists when solving to weld in the prior art big The problem of measuring stomata.

The embodiment of the present invention provides a kind of welding method of nickel plating phosphoretic steel, comprising:

By first laser module for exporting first laser；

By second laser module for exporting second laser；

By laser adapter for exporting recombination laser, so that being carried out by the recombination laser to to-be-welded region Welding, the recombination laser include first laser and second laser, and the focal beam spot diameter of the first laser is less than described the The focal beam spot diameter of dual-laser, and first laser described in the recombination laser and the second laser are coaxial, it is described to be welded Connect the contact area that region is two blocks of nickel plating phosphoretic steels.

The welding method of a kind of nickel plating phosphoretic steel provided in an embodiment of the present invention, by using two kinds of focal beam spot diameters Two different beam laser guarantee weld penetration and welding efficiency by the laser of small focal beam spot diameter, pass through big focal beam spot The laser damage of diameter place's phosphorous layer to be welded expands molten bath volume and delays molten bath cooling velocity, to reduce in welding process The problem of a large amount of stomatas occurred.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is this hair Bright some embodiments for those of ordinary skill in the art without creative efforts, can be with root Other attached drawings are obtained according to these attached drawings.

Fig. 1 is a kind of flow chart of the welding method of nickel plating phosphoretic steel of the embodiment of the present invention；

Fig. 2 be two pieces of nickel-plated phosphor steel welded joints of one embodiment of the invention be docking when schematic diagram；

Fig. 3 is that two pieces of nickel-plated phosphor steel welded joints of one embodiment of the invention are schematic diagram when tower connects；

The schematic diagram that Fig. 4 is two pieces of nickel-plated phosphor steel welded joints of one embodiment of the invention when being corner connection.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art Every other embodiment obtained without creative efforts, shall fall within the protection scope of the present invention.

Fig. 1 is a kind of flow chart of the welding method of nickel plating phosphoretic steel of the embodiment of the present invention, as shown in Figure 1, the welding method Include:

S1, by first laser module for exporting first laser；

S2, by second laser module for exporting second laser；

S3, by laser adapter for exporting recombination laser, so that by the recombination laser to to-be-welded region It is welded, the recombination laser includes first laser and second laser, and the focal beam spot diameter of the first laser is less than institute The focal beam spot diameter of second laser is stated, and first laser described in the recombination laser and the second laser are coaxial, it is described To-be-welded region is the contact area of two blocks of nickel plating phosphoretic steels.

Before being welded, decontamination is carried out to the welding position of two blocks of nickel plating phosphoretic steels first and is deoiled cleaning, then by two Block nickel plating phosphoretic steel assembles and fixes on the table, so that the place to be welded of two blocks of nickel plating phosphoretic steels is in contact, obtains to-be-welded region, Allow two pieces of nickel plating phosphoretic steel contact positions of to-be-welded region that the gap value less than or equal to 0.2mm is locally present.

In welding, first laser is exported by first laser module, second laser module exports second laser, and first swashs The focal beam spot diameter of light is different with the focal beam spot diameter of second laser, therefore, first laser and second laser in welding It is also different to the energy of welding contribution.First laser and second laser are handled in laser adapter part, so that most The recombination laser obtained afterwards is light beam, that is to say, that first laser and second laser are coaxial, and the focusing light of first laser Spot diameter is less than the focal beam spot diameter of second laser.

In use, it is divided into the following steps:

Weld preparation: decontamination is carried out according to the welding position of galvanized steel to be welded and is deoiled cleaning, then by galvanized steel to be welded It assembles and fixes on the table, two galvanized steels place to be welded is made to be in contact, allow contact position that the≤gap of 0.2mm is locally present Amount；

The light power of first laser and second laser is adjusted, and will be to be welded on the recombination laser of output alignment galvanized steel Meet area；

The relative distance between above-mentioned welder and galvanized steel is adjusted, while adjusting recombination laser beam incidence to welding zone Angle；After relative distance and incident angle determine, remain unchanged in the welding process；

After the output power and above-mentioned relative distance and incident angle of adjusting laser beam, start to weld galvanized steel.

The welding method of a kind of nickel plating phosphoretic steel provided in an embodiment of the present invention, by using two kinds of focal beam spot diameters Two different beam laser guarantee weld penetration and welding efficiency by the laser of small focal beam spot diameter, pass through big focal beam spot The laser damage of diameter place's phosphorous layer to be welded expands molten bath volume and delays molten bath cooling velocity, in order to reduce phosphorus steam pair The influence of weldquality.The present invention can effectively solve the problems, such as a large amount of stomatas occurred in the welding of nickel plating phosphoretic steel, improve nickel plating phosphoretic steel The quality of laser welding.

On the basis of the above embodiments, it is preferable that the laser adapter include the first collimating mirror, the second collimating mirror and Focus lamp, for collimating to the first laser, second collimating mirror is used for described second first collimating mirror Laser is collimated, and the focus lamp is focused for the first laser after making collimation and the second laser after collimation, after focusing First laser and the second laser after collimation are coaxial.

Specifically, inside laser adapter by the first collimating mirror, the second collimating mirror and focus lamp come to first laser and Second laser is handled, so that the first laser after collimation is parallel with the second laser after collimation, first after then collimating Second laser after laser and collimation becomes compound sharp in beam of laser, that is, the embodiment of the present invention after focus lamp Light, in recombination laser, first laser and second laser are coaxial.

On the basis of the above embodiments, it is preferable that during actual welding, the first laser module was being welded Output power in journey in first time period, which is become larger by the preset ratio of first predetermined power to described first, to be preset Power, the output power in second time period keep first predetermined power constant, the output work within the third period Rate is gradually become smaller the preset ratio until first predetermined power by first predetermined power, and the first time period is weldering Preceding 50ms in termination process, the third period are the rear 100ms in welding process, and the preset ratio is 5% to 20%.

Specifically, preset ratio can be any ratio between 5% to 20%, that is to say, that output power is at first Between initial value in section between the 20% of the 5% to the first predetermined power of the first predetermined power.The embodiment of the present invention is to export Initial value of the power in first time period is illustrated for being the 10% of the first predetermined power.

On the basis of the above embodiments, it is preferable that the output power of the second laser module in the welding process is equal For the second predetermined power.

Specifically, second laser module keeps the second predetermined power constant in the welding process, that is to say, that second laser Module laser energy during exporting second laser remains unchanged.

On the basis of the above embodiments, it is preferable that the focal beam spot diameter of the second laser is the first laser 4 times or more of focal beam spot diameter.

Specifically, the focal beam spot diameter of second laser is 4 times or more of the focal beam spot diameter of first laser, that is, It says that first laser is different with the wavelength of second laser, in this way in welding, passes through the weldering of different wave length laser welding nickel plating phosphoretic steel It is higher to connect method Heat input coefficient, and can will measure and concentrate on welded seam area, so for the welding method, total heat Input quantity is relatively low, and weld heat-affected zone is minimum, and the phosphorous layer extent of the destruction of weld seam near zone is lower, has substantially no effect on weldering The corrosion resistance for sewing up head can be very good the requirement for meeting product.

Also, opposite traditional manufacturing technique, when different wave length laser compound welding nickel plating phosphoretic steel may be implemented pore-free without The welding line joint in crack.

On the basis of the above embodiments, it is preferable that the first laser module is optical fiber laser, the second laser Module is semiconductor laser.

Optical fiber laser refers to that the laser for using doped rare earth element glass optical fiber as gain media, optical fiber laser can It developed on the basis of fiber amplifier: easily forming high power density in optical fiber under the action of pump light, cause to swash The laser levels " population inversion " of light operation material can form laser when being suitably added positive feedback loop (constituting resonant cavity) Oscillation output.

Semiconductor laser, also known as laser diode are to use semiconductor material as the laser of operation material.

Generally, material (in addition to high anti-material) increases the absorptivity of laser with becoming smaller for optical maser wavelength, and light The optical maser wavelength of fibre laser is big with respect to the optical maser wavelength of semiconductor laser, that is, general material is to semiconductor laser Absorptivity is higher.So even if semiconductor laser focal beam spot diameter is very big in the welding process, but because of its utilization rate height, so It still is able to good generation effect, can effectively remove material surface pollutant and coating etc..

The present invention is implemented so that first laser module is optical fiber laser, second laser module is semiconductor laser as an example Example is illustrated.

Weld preparation first carries out decontamination according to the welding position of nickel plating phosphoretic steel to be welded and deoils cleaning, then will be to be welded Nickel plating phosphoretic steel assembles and fixes on the table, and two nickel plating phosphoretic steel places to be welded is made to be in contact, allow contact position be locally present≤ The gap value of 0.2mm is then ready for a kind of recombination laser heat source system, including two lasers, is respectively optical fiber laser And semiconductor laser.

Then adjust optical fiber laser and semiconductor laser goes out light, makes going out for optical fiber laser and semiconductor laser Light is coaxial, and the recombination laser of output is directed at the area to be welded on two blocks of nickel plating phosphoretic steels.

Then the output power for adjusting optical fiber laser and semiconductor laser, controls the energy of recombination laser, above-mentioned multiple After fibre laser power and semiconductor laser power in conjunction laser determine, remain unchanged in the welding process.

The relative distance between the laser adapter of above-mentioned laser and two blocks of nickel plating phosphoretic steels to be welded is adjusted, is adjusted simultaneously Reduction is closed angle of the laser beam incidence to welding zone and is kept in the welding process after above-mentioned relative distance and incident angle determine It is constant.

After the output power and above-mentioned relative distance and incident angle of adjusting optical fiber laser and semiconductor laser, open Begin welding nickel plating phosphoretic steel, during actual welding, controls welding condition using digital control system, partly leads when welding and starting Volumetric laser starts light out using the second predetermined power value of setting immediately, keeps the second predetermined power value in the whole welding process Until welding process terminates.

And optical fiber laser then starts light out and gradually in the preset ratio that welding starts with the first predetermined power value Linear to increase, laser power reaches the first predetermined power of setting in 50ms later, keeps the first predetermined power until weldering Termination process terminates preceding 100ms, and laser power starts to gradually reduce the laser power at the end of welding and is reduced to setting value later Preset ratio, preset ratio can be any ratio between 5% to 20%, that is to say, that output power is in first time period Initial value between the 20% of the 5% to the first predetermined power of the first predetermined power.

Specifically, the peak power output of optical fiber laser is 1000w-10000w, and wavelength is 1080 ± 5nm, is equipped with light Fibre core diameter is 100 μm -400 μm, and the peak power output of semiconductor laser is 500w-4000w, and wavelength is 915 ± 10nm, is matched Standby optical fiber core diameter is 200 μm -800 μm.

Two kinds of lasers participate in welding process simultaneously in the embodiment of the present invention, it is characterised in that two lasers exported swashs Optical wavelength is different, and the optical-fiber laser angle of divergence that optical fiber laser generates is smaller, and the optical fiber of smaller core diameter can be used, partly lead The semiconductor laser angle of divergence that body laser generates is larger, need to use the optical fiber of larger core diameter.

According to formula (1) it can be concluded that semiconductor laser focal beam spot diameter opposed optical fibers laser focal beam spot diameter Greatly；Using specific laser adapter, which can be adjusted to diameter the lesser laser beam of focal beam spot diameter Biggish laser beam center, keeps two laser coaxial, using digital control system appropriate, it is characterised in that can control two beams respectively Laser exports the size and other welding conditions of energy, using welding condition appropriate, it is characterised in that Neng Goubao It demonstrate,proves appearance of weld and quality is stablized.

Wherein, φ indicates that focal beam spot diameter, f indicate the focus lamp focal length of laser adapter, and l indicates laser adapter Collimating mirror focal length,Indicate optical fiber core diameter.

Above-mentioned welding method, laser welding head be fiber laser beam can be adjusted to semiconductor laser beam center, and Keep the two coaxial, i.e., forms two beam directional lights after a collimating mirror respectively into two beam laser of plumb joint, then pass through The same point is focused on after the same focus lamp forms composite light source.First collimating mirror used is optical-fiber laser beam path alignment mirror Focal length 50mm~200mm of focal length 50mm~200mm, the second collimating mirror of semiconductor laser optical path, the focal length of focus lamp are 100mm ~500mm.

Wherein, digital control system is the output energy and other welding conditions that can control two beam laser respectively.

Wherein, welding condition include optical fiber laser output power, semiconductor laser output power, speed of welding, from Angle, weld seam molten bath protective gas type and the flow of the incident material to be welded of Jiao Liang, light beam.The output power of optical fiber laser is 1000w~10000w, the output power of semiconductor laser are 500w~4000w, and speed of welding is 20mm/s~200mm/s, Defocusing amount is -10mm~+10mm, and the angle of the incident material to be welded of light beam is 0~50 °, and it is Ar that inert gas is protected in weld seam molten bath Or He or Ar, He mixed gas, flow are 5L/min~50L/min.

Wherein, it is suitable for all nickel-plated phosphor steel welded joint forms, including stitch welding, docking, overlap joint, corner joint, this side The key mechanism of method is optical-fiber laser output energy as main welding energy, and main function is control weld penetration, weldering Connect efficiency；And semiconductor laser exports energy as secondary welding energy, main function is control weld seam molten bath opening area, The setting time in molten bath is controlled, and then controls formation and the appearance of weld of weld seam inner air vent.

In general, through the invention it is contemplated above technical scheme is compared with the prior art, can obtain down and show Beneficial effect:

(1) for the present invention compared to existing welding procedure, operation is more simple, controls more accurate.

(2) present invention is provided with the laser welding process with different wave length laser compound welding nickel plating phosphoretic steel, Neng Goubao Card appearance of weld meets product demand, and without additional supplementary means come control weldquality can be obtained basic pore-free without The weld seam of crackle.

On the basis of the above embodiments, it is preferable that further include protective module, the protective module is for exporting indifferent gas Body is to prevent the to-be-welded region to be oxidized and blow away in the welding process the metallic vapour plumage above molten bath.

In the welding process, to-be-welded region is welded by recombination laser on one side, on one side further through protective module Output inert gas protects welding region, and to-be-welded region is prevented to be oxidized in the welding process.

On the basis of the above embodiments, it is preferable that the flow of the protective module output inert gas is argon gas or helium Gas.

Specifically, which is argon gas either helium.

Fig. 2 be two pieces of nickel-plated phosphor steel welded joints of one embodiment of the invention be docking when schematic diagram, as shown in Fig. 2, plating The joint form of nickel phosphoretic steel 3 and nickel plating phosphoretic steel 4 is banjo fixing butt jointing, and material thickness 5mm, two sides material to be welded is bonded completely；It adopts The optical fiber laser for being 200 μm with fiber cores diameter, the semiconductor laser that optical fiber core diameter is 800 μm, used laser are compound The focus lamp focal length of plumb joint is 300mm, and optical-fiber laser beam path alignment mirror focal length is 100mm, semiconductor laser optical path collimating mirror Focal length is 100mm, i.e., optical-fiber laser focal beam spot diameter is 0.6mm, semiconductor laser focal beam spot diameter is 2.4mm；Using Welding parameter be the general power of recombination laser 1 include fibre laser power 10000w and semiconductor laser power 4000w, welding Speed 80mm/s, defocusing amount 0；It is 20 ° that laser beam incidence weld seam angle is kept when welding, and protective gas is Ar, and flow is 50L/min；After the completion of welding, 2 beautiful appearance of weld seam does not find stomata, crackle.

Fig. 3 is that two pieces of nickel-plated phosphor steel welded joints of one embodiment of the invention are schematic diagram when tower connects, as shown in figure 3, plating The joint form of nickel phosphoretic steel 3 and nickel plating phosphoretic steel 4 is tower connector, material thickness 2mm, and upper layer and lower layer material is bonded completely；It adopts The optical fiber laser for being 200 μm with fiber cores diameter, the semiconductor laser that optical fiber core diameter is 600 μm, used laser are compound The focus lamp focal length of plumb joint is 500mm, and optical-fiber laser beam path alignment mirror focal length is 150mm, semiconductor laser optical path collimating mirror Focal length is 100mm, i.e., optical-fiber laser focal beam spot diameter is 0.67mm, semiconductor laser focal beam spot diameter is 3mm；It uses Welding parameter is that the general power of recombination laser 1 includes fibre laser power 1000w and semiconductor laser power 1000w, welding speed 20mm/s is spent, defocusing amount is+10mm；It is 0 (vertical incidence) that laser beam incidence weld seam angle is kept when welding, and protective gas is Ar, flow are 30L/min；After the completion of welding, 2 beautiful appearance of weld seam does not find stomata, crackle.

The schematic diagram that Fig. 4 is two pieces of nickel-plated phosphor steel welded joints of one embodiment of the invention when being corner connection, as shown in figure 4, plating The welding point form of nickel phosphoretic steel 3 and nickel plating phosphoretic steel 4 is corner joint, and material thickness 3mm, upper layer and lower layer material pastes completely It closes；Use optical fiber core diameter for 100 μm of optical fiber laser, the semiconductor laser that optical fiber core diameter is 400 μm, used laser The focus lamp focal length of composite welding head is 200mm, and optical-fiber laser beam path alignment mirror focal length is 100mm, and semiconductor laser optical path is quasi- Straight mirror focal length is 75mm, i.e., optical-fiber laser focal beam spot diameter is 0.2mm, semiconductor laser focal beam spot diameter is 1.1mm；It adopts Welding parameter is that the general power of laser beam 1 includes fibre laser power 8000w and semiconductor laser power 1000w, welding Speed 200mm/s, defocusing amount 0；It is 0 (vertical incidence) that laser beam incidence weld seam angle is kept when welding, and protective gas is He, Flow is 20L/min；After the completion of welding, 2 beautiful appearance of weld seam does not find stomata, crackle.

To sum up, compared with the existing technology, the present invention uses the welding procedure of different wave length laser compound welding nickel plating phosphoretic steel, The demand that current nickel plating phosphoretic steel welding field may be implemented, with unrivaled advantage:

(1) relative to traditional manufacturing technique, the welding method heat input of different wave length laser compound welding nickel plating phosphoretic steel is imitated Rate is high, and can concentrate on welded seam area, so total heat input is relatively low, weld heat-affected zone is minimum, and weld seam is attached The phosphorous layer extent of the destruction of near field is lower, has substantially no effect on the corrosion resistance of welding line joint, can be very good the requirement for meeting product.

(2) relative to traditional manufacturing technique, the welding method of different wave length laser compound welding nickel plating phosphoretic steel be may be implemented The connection of the welding line joint of pore-free flawless.

(3) relative to the existing technique with two beams laser welding nickel plating phosphoretic steel of the same race, the application is with different wave length laser Composite welding nickel plating phosphoretic steel, the requirement to technology controlling and process reduces, energy saving, and welding procedure welding efficiency of the invention is high, easily Realize automation.

(4) relative to conventional laser welding manufacture technique, the welding method of different wave length laser compound welding nickel plating phosphoretic steel The control of weld penetration and weld porosity and crackle can be combined.

Through the above description of the embodiments, those skilled in the art can be understood that each embodiment can It realizes by means of software and necessary general hardware platform, naturally it is also possible to pass through hardware.Based on this understanding, on Stating technical solution, substantially the part that contributes to existing technology can be embodied in the form of software products in other words, should Computer software product may be stored in a computer readable storage medium, such as ROM/RAM, magnetic disk, CD, including several fingers It enables and using so that a computer equipment (can be personal computer, server or the network equipment etc.) executes each implementation Method described in certain parts of example or embodiment.

Finally, it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although Present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: it still may be used To modify the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features； And these are modified or replaceed, technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution spirit and Range.

Claims (8)

1. a kind of welding method of nickel plating phosphoretic steel characterized by comprising

By first laser module for exporting first laser；

By second laser module for exporting second laser；

By laser adapter for exporting recombination laser, so that being welded by the recombination laser to to-be-welded region It connects, the recombination laser includes first laser and second laser, and the focal beam spot diameter of the first laser is less than described second The focal beam spot diameter of laser, and first laser described in the recombination laser and the second laser are coaxial, it is described to be welded Region is the contact area of two blocks of nickel plating phosphoretic steels.

2. method according to claim 1, which is characterized in that the laser adapter includes the first collimating mirror, the second collimation Mirror and focus lamp, correspondingly:

The first laser is collimated by first collimating mirror；

The second laser is collimated by second collimating mirror；

First laser after making collimation by the focus lamp and second laser after collimation focus, the first laser after focusing with Second laser after collimation is coaxial.

3. method according to claim 1, which is characterized in that during actual welding, the first laser module is being welded Output power in termination process in first time period, which is become larger by the preset ratio of the first predetermined power to described first, to be preset Power, the output power in second time period keep first predetermined power constant, the output work within the third period Rate is gradually become smaller the preset ratio until first predetermined power by first predetermined power, and the first time period is weldering Preceding 50ms in termination process, the third period are the rear 100ms in welding process, and the preset ratio is 5% to 20%.

4. method according to claim 1, which is characterized in that the output power of the second laser module in the welding process It is the second predetermined power.

5. method according to claim 1, which is characterized in that the focal beam spot diameter of the second laser is described first sharp 4 times or more of the focal beam spot diameter of light.

6. method according to claim 1, which is characterized in that the first laser module be optical fiber laser, described second Laser module is semiconductor laser.

7. method according to claim 1, which is characterized in that further include protective module, the protective module is lazy for exporting Property gas is to prevent the to-be-welded region to be oxidized and blow away in the welding process the metallic vapour plumage above molten bath.

8. method according to claim 7, which is characterized in that the flow of protective module output inert gas be argon gas or Helium.