KR20170123551A - Jointing method for a steel panel using a flash butt welding - Google Patents

Abstract

The present invention relates to a joining method for a steel panel and, more specifically, relates to a joining method for a steel panel, comprising: a step of enabling an electrode to be in contact and applying an electric current to a surface of both side materials composed of a base metal and a plating layer for a material on one side to be moved to the other material on the other side; and a step of forming a joining unit in which the base metal and the plating layer are mixed in a welding portion by compressing a bead formed as contact portions of both side materials are welded and bonded to each other with a tool.

Description

Technical Field [0001] The present invention relates to a method of joining steel sheets using flash butt welding,

The present invention relates to a method of joining steel sheets, and more particularly, to a method of joining steel sheets, comprising the steps of: moving the other material to one side of a material while bringing an electrode into contact with surfaces of both materials comprising a base material and a plated layer; A step of pressing the beads formed by melt-bonding the contact portions of the two side materials using a jig to form a joint where the base material and the plating layer are mixed in the welding portion; And a joining method of the steel sheet.

In recent years, in the development of automobiles, improvement in fuel efficiency based on high oil prices and environmental regulations is becoming a key factor in vehicle development.

For this purpose, there is a growing demand for a vehicle body manufacturing method in which weight reduction of a vehicle is more important and safety of a passenger in a collision is ensured.

In such a vehicle body manufacturing method, a hot stamping method is used to increase the rigidity of a main impact portion of a vehicle body.

Since the hot stamping method has a high strength and formability, the application range is gradually increasing. However, due to the limit of the material production facility, it is not possible to manufacture an object part having a predetermined size or more. To overcome this disadvantage, TWB (Tailor Weld Blank ) Method.

The TWB method is a method for manufacturing a part by cutting a steel sheet having various materials and thickness according to a required shape and then pressing and molding the front end portion to be joined between the hot stamping materials and forming a blank through laser welding And manufacturing process.

However, when a hot stamping material plated with an Al-Si layer is used to manufacture a blank by using the TWB method, there is a risk that Al is mixed into the base material when the Al (aluminum) plating layer of the material is not removed. The strength of the base material is lowered by 100 Hv or more compared to the peripheral portion, which may act as a factor that adversely affects the impact performance of the vehicle body.

Therefore, when a hot stamping material plated with an Al-Si layer is used to manufacture a blank by using the TWB method, there is a disadvantage that a step of removing the Al plating layer of the material using a laser is required, which complicates and complicates the process .

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a method of manufacturing a hot stamping hot- There is a technical problem of the present invention to provide a method of joining steel sheets using flash butt welding which can secure equivalent strength to the prior art.

According to an aspect of the present invention, there is provided a method of joining steel sheets using flash butt welding, comprising the steps of: moving the other material to one side of a material while bringing an electrode into contact with surfaces of both materials comprising a base material and a plating layer; A step of pressing the beads formed by melt-bonding the contact portions of the two side materials using a jig to form a joint where the base material and the plating layer are mixed in the welding portion; And a control unit.

The method of joining a steel sheet using the flash butt welding of the present invention having the above-described structure can reduce the manufacturing cost by simplifying the joining process itself since there is no need to remove the plating layer in the material by a laser or the like in advance do.

In addition, the bonding method of the present invention can maintain the strength of the welded portion at the same level as that of the prior art by pressing the molten bead using a jig instead of removing the plating layer of the material in advance by laser, It is a very advanced invention that can secure a corrosion resistance equivalent to that of the material around the welded portion by the plating layer mixed in the steel plate.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
2 is a schematic view of the bonding method of the present invention,
3 is a graph showing a welded portion by a conventional joining method, a graph of the strength thereof, and a welded portion of the joining method of the present invention and a graph of the strength thereof.

Hereinafter, a method of joining steel sheets using flash butt welding according to the present invention will be described in detail with reference to the drawings.

It is to be noted, however, that the disclosed drawings are provided as examples for allowing a person skilled in the art to sufficiently convey the spirit of the present invention. Accordingly, the present invention is not limited to the following drawings, but may be embodied in other forms.

In addition, unless otherwise defined, the terms used in the description of the present invention have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. In the following description and the accompanying drawings, A detailed description of known functions and configurations that may be unnecessarily blurred is omitted.

1 is a configuration diagram of a bonding method of the present invention.

Referring to the drawings, the bonding method of the present invention is a method of bonding a material (1, 1 ') having a plated layer of Al-Si blanked in accordance with the shape of a part to electrodes (2, 2' ).

The electrodes 2 of the one side material 1 are fixed and the electrodes 2 'of the other side material 1' are moved to bring the one material 1 and the other material 1 'into contact with each other.

Since the one side material 1 and the other side material 1 'are in a conducting state, a contact resistance is generated due to current conduction and a flash is generated. Accordingly, the one side material 1 and the other side material 1' ) Is melted by heat generation due to electrical resistance.

At this time, if the other material 1 'is continuously pushed, the interface portions of both materials are pressed and bonded to each other.

However, due to the movement of the materials (1,1 ') in the process of bonding the two materials 1' 1 'to each other, the material is pushed outward with respect to the center of the cross section of the materials. (1 '1') is not mixed with the material pushed outward with respect to the center of the cross-section, but the molten-form beads (bid) B) are formed. That is, the bead B is a region where the material and the plating layer are mixed.

Since the bead B affects the shape of the part, it is necessary to remove the bead B. However, when mechanically removing the bead B, the plating layer formed on the periphery of the material 1, 1 'is removed, The corrosion resistance is lowered.

Also, since the flash butt welding method is used as described above, a deviation occurs in the thickness direction of the welded portion to cause a step difference problem. In the case of a steel sheet for automobile, dimensional accuracy is important, and a method for solving the problem is needed.

The joining method of the present invention solves this problem by using the jig (3). That is, by pressing the portion of the molten bead (B) in the cross section of the work piece with the jig (3), it is possible to solve the step difference between the two materials (1, 1 '), So that the bulged bead B can be spread around the welded portion.

Therefore, in the conventional flash butt welding method, when the molten bead is forcibly removed, the plating layer around the welded portion is damaged to lower the corrosion resistance of the welded portion, while the bonding method of the present invention is discharged to the outside of the material by the metal flow phenomenon The molten bead portion is pressed by a jig so that the corrosion resistance of the welded portion can be improved by the plating layer included in the bead.

Therefore, the joining method of the present invention can overcome the thickness step of the welded portion by pressing the bead portion using the jig, so that the cross-section matching of both materials can be performed accurately, By spreading the bead around the welded portion, the plating layer included in the bead can secure a uniform plating layer on the welded portion.

Furthermore, since the shape of the jig 3 can be changed, it is applicable not only to joining between both materials having the same thickness, but also to joining processes between two materials having different thicknesses.

FIG. 2 is a schematic view of a bonding method of the present invention, and a bonding method of the present invention will be described in detail with reference to the drawings.

The basic joining method is the same as that described with reference to Fig.

First, blanking is carried out according to the shape of the parts of the both sides (1,1 ') made of the base metal (10) and the plating layer (20). The plating layer 20 of the embodiment of the present invention is an Al-Si plated layer.

Then, while the electrodes 30 are brought into contact with the surfaces of both the materials 1, 1 'and energized, the other material 1' is moved to the one material 1 side.

Then, as described above, the cross-sections of the two side materials are brought into contact with each other, and flashes due to the electrical contact resistance are generated, thereby melting the contact portions of the two side materials.

At this time, when the other material 1 'is continuously pushed, a metal flow phenomenon occurs at the contact portion, and the plating layer 20 formed on the surface of the material 1'1' does not flow into the material A molten bead (B) is formed by mixing with the base material (10) pushed outward with respect to the center of the cross section. As described above, the bead (B) is a region where the base material (10) and the plating layer (20) are mutually mixed.

Then, if the molten bonding region is pressed in both directions using the jig 40 matching the thickness of the material, the thickness step of the two materials generated by melting the bonding region is eliminated.

At the same time, the bead B spreads around the welded portion due to the pressing of the jig 40, thereby forming the joint portion 50 in which the base material 10 and the plating layer 20 are mixed.

At this time, the bonding portion 50 can secure the corrosion resistance equivalent to that of the material of other portions by the plating layer 20 which is mixed in the beads B.

FIG. 3 is a graph showing a welded portion and a strength graph of the conventional joining method, a welded portion of the joining method of the present invention and a graph of the strength thereof. In the photographs shown on the left, As the Al is mixed into the base material, the strength of the welded portion is formed to 300 to 350 Hv, which is lower than 500 to 550 Hv, which is the strength of the peripheral portion.

In addition, as described in the prior art, when the plating layer of the workpiece is removed by using a laser in advance and the welding is performed, the intrusion of the plating layer is prevented as shown in the center photograph, and the strength of the welded portion, 550 Hv can be maintained. However, as described above, a process of removing the Al plating layer of the material by using a laser is added, which causes a disadvantage that the process becomes complicated and complicated as a whole.

On the other hand, as shown in the photograph on the right side of the joining portion of the present invention, the joining method of the present invention does not remove the plating layer of the material in advance by laser but presses the molten bead by using a jig, Can be maintained at 500 to 550 Hv, which is the same level as the conventional one, and the corrosion resistance equivalent to that of the material around the welded portion can be secured by the plating layer mixed in the bead.

DESCRIPTION OF REFERENCE NUMERALS OF MAIN PARTS OF DRAWINGS
10; Base material
20; Plated layer
30; electrode
40; Jig
50; copula

Claims (4)

Moving the other material (1 ') to the one material (1) side while bringing the electrode (30) into contact with the surfaces of the two materials (1,1') made of the base material (10) and the plating layer (20);
Forming a joint portion 50 in which the base material 10 and the plating layer 20 are mixed at the welded portion by using the jig 40 to press the bead B formed while the contact portions of the two materials are melt-
And joining the steel sheet to each other.
The method according to claim 1,
Wherein the plating layer (20) is an Al-Si plated layer.
The method according to claim 1,
Wherein the jig (40) is changeable in shape according to the two materials (1, 1 ').
The method according to claim 1,
Wherein the two materials (1, 1 ') are different materials having different thicknesses.

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