A swing laser-cmt hybrid welding method

A composite welding and laser technology, applied in laser welding equipment, welding equipment, metal processing equipment, etc., can solve the problems of unable to form composite plasma, large distance between arc and laser, sharp weld bottom shape, etc., to avoid air holes The effects of defect generation, increased penetration, and reduced eruption frequency

Active Publication Date: 2019-10-08
HARBIN INST OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] Due to the paraxial recombination method and the limitation of the laser action position, the angle between the welding torch and the base metal is not greater than 50°. Therefore, when the welding wire is drawn back and the arc energy is small, the laser and arc are completely separated, and even lose recombination. Effect, image 3 It is a high-speed camera picture when the distance between the light filaments is 3mm, Figure 4 For the cross section of the weld, it can be seen that the distance between the arc and the laser is relatively large, and composite plasma cannot be formed. figure 1 and Figure 4 , it can be found that the penetration depth of the weld is reduced, the bottom of the weld is sharp, the width of the middle part is reduced, and the composite effect disappears

Method used

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  • A swing laser-cmt hybrid welding method
  • A swing laser-cmt hybrid welding method
  • A swing laser-cmt hybrid welding method

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specific Embodiment approach 1

[0028] Specific embodiment one: a kind of oscillating laser-CMT composite welding method of the present embodiment, it is carried out according to the following steps:

[0029] Step 1: Before welding, process the parts to be welded into V-shaped grooves, U-shaped grooves or Y-shaped grooves according to the plate thickness, and grind and clean the processed grooves and the surfaces on both sides , fix the workpiece to be welded after grinding or cleaning on the welding fixture;

[0030] Step 2: Use the fixture to rigidly fix the laser head and the CMT welding torch, and connect the monitoring equipment and the control system;

[0031] Step 3: Set welding process parameters:

[0032] The defocus amount is -2~﹢3mm, the laser power is 500~5000W, the laser scanning amplitude is 1~2mm, the arc current is 40~150A, the arc length correction coefficient is -20%~+20%, and the inductance correction coefficient is - 10%~+10%, the distance between light wires is 0~2mm, the welding speed...

specific Embodiment approach 2

[0034] Specific embodiment two: the difference between this embodiment and specific embodiment one is: step 3 sets the welding process parameters:

[0035] The defocus amount is -2~﹢3mm, the laser power is 500~4000W, the laser scanning amplitude is 1~2mm, the arc current is 50~150A, the arc length correction coefficient is -10%~+20%, and the inductance correction coefficient is - 5%~+10%, the spacing between light wires is 0~2mm, the welding speed is 1~4m / min; the welding torch shielding gas adopts pure Ar gas or CO 2 Mixed gas with Ar, the output pressure of protective gas is 0.4~0.6MPa.

[0036] Others are the same as in the first embodiment.

specific Embodiment approach 3

[0037] Specific embodiment three: the difference between this embodiment and specific embodiment one is: step 3 sets the welding process parameters:

[0038] The defocus amount is -2~﹢3mm, the laser power is 500~3000W, the laser scanning amplitude is 1~2mm, the arc current is 60~150A, the arc length correction coefficient is -10%~+20%, and the inductance correction coefficient is - 5%~+10%, the spacing between the light wires is 0~2mm, the welding speed is 1~3m / min; the welding torch shielding gas adopts pure Ar gas or CO 2 Mixed gas with Ar, the output pressure of protective gas is 0.4~0.6MPa.

[0039] Others are the same as in the first embodiment.

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Abstract

The invention discloses a swing laser-CMT hybrid welding method, and relates to the field of material machining engineering. According to the swing laser-CMT hybrid welding method, the stability of alaser keyhole and an electric arc and the stability of globular transfer in the laser-CMT hybrid welding process are improved, and the problems that defects are generated in the welding process, and the depth of fusion is decreased are solved; hybrid welding is conducted by using a swing laser and the CMT electric arc, the laser needs to conduct reciprocating rectilinear movement or circular arc movement and the like front and back in the welding direction, a CMT welding state is detected by adopting current and voltage detection equipment, the CMT welding state is analyzed by using LabVIEW software, a laser head is controlled to enable the laser to be matched with the CMT electric arc to conduct swinging, the laser is controlled to swing forwards accordingly in the welding wire forward feeding-in process, the laser is prevented from being blocked by a welding wire, and thus an air hole defect is prevented from being caused; and when the short-circuit process comes to an end and the welding wire is drawn back, the laser is controlled to swing backwards, the distance between the welding wire and the laser shortened, and a coupling effect is prevented from disappearing due to the toolong distance after arc starting.

Description

technical field [0001] The invention relates to an oscillating laser-CMT composite welding method, which belongs to the field of material processing engineering. Background technique [0002] Laser-arc composite heat source welding has obvious advantages such as good adaptability to weld assembly, small post-weld deformation, good welding consistency and stability, and has higher Controllability and degree of automation. In order to solve the problem of poor welding shape and large post-welding deformation of thin plates, laser-arc hybrid welding technology, especially laser-CMT hybrid welding technology, may be the best choice for thin plate welding, both from the perspective of technology and from the economic point of view. One of the preferred methods. [0003] CMT technology was developed by the Austrian FRONIUS company, which digitally coordinates the wire feeding and droplet transfer process. CMT arc welding has small current, small heat input, small spatter and sm...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B23K26/348B23K28/02
Inventor 雷正龙黎炳蔚田泽王群
Owner HARBIN INST OF TECH
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