KR102043516B1 - Method of welding coated steel sheet and austenite based stianless pipe - Google Patents

Abstract

The present invention relates to a method for welding a plated steel sheet and an austenitic stainless steel pipe.
One embodiment of the present invention is a welding method for welding while contacting the plated steel plate with an opening of the austenitic stainless steel pipe while spraying a protective gas on the contacted portion, wherein the protective gas is 2% to 5% by volume. And O ₂ and the balance Ar, and the welding material during the welding provides a welding method of the plated steel sheet and the austenitic stainless steel pipe which are ferritic stainless steels.

Description

Welding method of plated steel sheet and austenitic stainless steel pipe {METHOD OF WELDING COATED STEEL SHEET AND AUSTENITE BASED STIANLESS PIPE}

The present invention relates to a method for welding a plated steel sheet and an austenitic stainless steel pipe.

In the field of steel building materials including structural members such as reservoir tanks, there is an increasing need for improving corrosion resistance of welds due to various corrosion environments. Accordingly, high corrosion resistance of structural members has emerged as an essential requirement. For example, in consideration of exposure to various corrosive environments in outdoor exposure environment, it is a trend to replace the existing carbon steel with high corrosion-resistant alloy plated steel sheet.

On the other hand, a part of structural members such as a reservoir tank is obtained by welding a stainless steel pipe and an alloy plated plate material, and Zn-Mg-Al molten alloy plated steel sheet is usually used as the alloy plated material. The welded joint formed by the welding maximizes the restraint stress at the overlapping portion of the start and end of the weld bead as shown in FIG. 1 when the arc is welded between the pipe and the plate. The Zn-Mg-Al ternary system has a low melting point compared to pure Zn. Due to the grain boundary penetration of the molten alloy plating, liquid metal embrittlement cracks are more sensitive in the weld heat direction. In addition, the liquid metal embrittlement phenomenon is the sensitivity increases as the strength and plating amount of the steel increases. On the other hand, Figure 1 is a photograph of the overlapping portion of the start and end of the weld bead applying the full-circle arc welding between the pipe and the plate.

In order to solve the above problems, a method for crack sensitivity evaluation and crack reduction method of all-arc arc welding between high corrosion resistant alloy plated steel sheets has been proposed (Patent Document 1). Patent Document 1 proposes a method of controlling the mixing ratio of the protective gas of MAG (Metal Active Gas) welding to an appropriate ratio to suppress the occurrence of liquid metal embrittlement cracks in Zn-Mg-Al plated steel sheet arc welding structural members for 590 MPa class or higher. have. At this time, the core content is to secure the plating evaporation area by limiting the fraction of CO2 gas to a certain range. However, when the material of the pipe is stainless steel, MIG (Metal Inert Gas) welding should be applied. Accordingly, there is a limitation in applying the method of Patent Document 1 when welding a plated steel sheet and a stainless steel pipe. In addition, the 300 steel, that is, austenitic stainless steel has a high coefficient of thermal expansion, so that the expansion and contraction deformation due to the heat effect of the welding is relatively increased. Thus, the above-described high corrosion resistant alloy plated steel and liquid metal embrittlement during arc welding all around. The crack sensitivity is higher.

Japanese Patent Publication No. 2013-35060

One aspect of the present invention is to provide a welding method that can suppress the liquid metal embrittlement cracking that occurs sensitively during arc welding between the two kinds of plated steel sheet and austenitic stainless steel pipe.

One embodiment of the present invention is a welding method for welding while contacting the plated steel plate with an opening of the austenitic stainless steel pipe while spraying a protective gas on the contacted portion, wherein the protective gas is 2% to 5% by volume. And O ₂ and the balance Ar, and the welding material during the welding provides a welding method of the plated steel sheet and the austenitic stainless steel pipe which are ferritic stainless steels.

According to one aspect of the present invention, it is possible to provide a welding method capable of suppressing a liquid metal embrittlement crack that occurs sensitively during arc welding between two kinds of plated steel sheets and austenitic stainless steel pipes.

1 is a photograph of the overlapping portion of the start and end of the weld bead applying the full-circle arc welding between the pipe and the plate.
Figure 2 is a photograph observing the appearance of the weld bead of Comparative Example 1 and Inventive Example 1 according to an embodiment of the present invention, (a) is a photograph of Comparative Example 1, (b).

Hereinafter, the present invention will be described in detail.

The present invention relates to a welding method for welding while contacting the plated steel sheet with an opening of an austenitic stainless steel pipe and spraying a protective gas to the contacted portion. More specifically, the present invention relates to a method of arc welding the opening of the plated steel sheet and the austenitic stainless steel pipe all around.

In general, when the plated steel sheet and the austenitic stainless steel pipe are welded, the strength and plating amount of the plated steel sheet increase, so that the liquid metal embrittlement crack sensitivity increases. In order to solve this problem, the present invention is characterized in that the type and fraction of the protective gas during welding, and to control the welding material. As a plated steel sheet applicable to the present invention, the plating deposition amount may be 20 to 250 g / m ² per one side, and the tensile strength may be 540 MPa or more. In addition, the plated steel sheet may be, for example, a Zn-Mg-Al-based plated steel sheet.

On the other hand, it is preferable to use MIG as the welding method for the welding. The MIG welding is characterized by the stable arc and volume transfer using an inert gas such as Ar, it can be preferably applied to the welding of the plated steel sheet and austenitic stainless steel pipe.

The protective gas is in volume%, preferably 2-5% O ₂ and the balance Ar. O ₂ in the protective gas stabilizes the arc while improving the fluidity of the paper and at the same time serves to reduce the amount of hot dip through the formation of high melting point oxide through oxidation of Zn-Mg-Al. When the content of O ₂ in the protective gas is less than 2% by volume, the formation of Zn-Mg-Al-based oxide is limited, which is not effective in reducing the amount of hot dip, and in the case of more than 5% by volume, the surface of the molten metal. There is a problem in that the tension is increased, the plating evaporation area is reduced and the liquid metal embrittlement cracking sensitivity is increased by the molten liquid plating.

In addition, the welding material during the welding is preferably ferritic stainless steel. The ferritic stainless steel welding material can lower the thermal expansion and solidification shrinkage of the weld metal due to the relatively low coefficient of thermal expansion compared to the austenitic stainless steel welding material. The present invention can reduce the liquid metal embrittlement cracking sensitivity of the welded heat affected zone of the plated steel sheet by using ferritic stainless steel as the welding material. In the present invention, the welding material is not particularly limited as long as the welding material is ferritic stainless steel. However, the ferrite fraction of the welding material is 80 area% in order to sufficiently secure the above-described thermal expansion and reduction of solidification shrinkage of the welding metal. It is preferable.

On the other hand, the ferritic stainless steel welding material is by weight, preferably Cr: 18 to 30% and Ni: 0.2 to 9%. If the content of Cr is less than 18%, there is a disadvantage in that the ferrite fraction in the tissue is not sufficient. If the content of Cr is more than 30%, the ferrite fraction is excessive, which makes it difficult to secure weldability with an austenitic stainless steel pipe. If the content of Ni is less than 0.2%, the austenite fraction in the tissue is not sufficient, so that the weldability is lowered as described above. If the content of Ni is more than 9%, the ferrite fraction in the tissue is not sufficient to increase the coefficient of thermal expansion. There is a disadvantage of increasing the tensile residual stress due to the weld.

Hereinafter, the present invention will be described in more detail with reference to Examples. However, the following examples are only examples for explaining the present invention in more detail, and do not limit the scope of the present invention.

(Example)

The plated coating amount per side is 150g / m ² and the opening of the austenitic 304 stainless steel pipe is brought into contact with a plated steel sheet having a tensile strength of 540 MPa. Produced. After confirming whether or not the liquid metal embrittlement crack occurred for the welded joint thus obtained, the results are shown in Table 1 below.

division Protective gas (% by volume) Welding material Liquid Metal Embrittlement
Cracks Kinds Cr (% by weight) Ni (% by weight) Comparative Example 1 Ar Ferrite system 30 8.8 ○ Comparative Example 2 1O ₂ + Ar Ferrite system 30 8.8 ○ Inventive Example 1 2O ₂ + Ar Ferrite system 30 8.8 × Inventive Example 2 5O ₂ + Ar Ferrite system 30 8.8 × Inventive Example 3 3O ₂ + Ar Ferrite system 29 9.0 × Inventive Example 4 2O ₂ + Ar Ferrite system 18.4 0.27 × Comparative Example 3 6O ₂ + Ar Ferrite system 30 8.8 ○ Comparative Example 4 2O ₂ + Ar Austenitic 19.8 10.1 ○ Comparative Example 5 5O ₂ + Ar Austenitic 24.4 12.8 ○ Comparative Example 6 3O ₂ + Ar Austenitic 19.4 12.6 ○ Comparative Example 7 2O ₂ + Ar Austenitic 18.8 12.4 ○

As can be seen from Table 1, in the case of Inventive Examples 1 to 4 satisfying the O ₂ fraction in the protective gas proposed by the present invention, and using a ferritic stainless steel as a welding material, no liquid metal embrittlement cracking occurred. Able to know.

However, according to Comparative Examples 1 and 2. For this, the percentage of O ₂ not using the O ₂ respectively, lower than the range of the present invention it can be seen that it has a liquid-metal embrittlement cracks.

In the case of Comparative Example 3 it can be seen that the liquid metal embrittlement crack occurred as the fraction of O _{2 in} the protective gas is higher than the range of the present invention.

In the case of Comparative Examples 4 to 7, the protective gas fraction proposed by the present invention was satisfied, but it can be seen that the embrittlement cracking of the liquid metal occurred by using the austenitic welding material.

Figure 2 (a) is the appearance of the weld bead of the invention example 1, (b) is a photograph observing the appearance of the weld bead of Comparative Example 1. As can be seen in Figure 2, in the case of Inventive Example 1 it can be seen that the weld bead is good without cracking, in the case of Comparative Example 1 it can be seen that a significant crack in the weld bead.

Claims (5)

As a welding method in which an opening of an austenitic stainless steel pipe is brought into contact with a Zn-Mg-Al type hot-dip alloy plated steel sheet and then welded while spraying a protective gas to the contacted portion,
The Zn-Mg-Al-based molten alloy plated steel sheet has a tensile strength of 540 MPa or more,
The protective gas is volume%, 3 to 5% O ₂ and the balance Ar,
In the welding, the welding material is ferritic stainless steel, and in a weight%, a welding method of a plated steel sheet and austenitic stainless steel pipe containing 18% to 30% of Cr and 0.2% to 9% of Ni.
The method according to claim 1,
The welding is a welding method of a plated steel sheet and austenitic stainless steel pipe MIG welding.
The method according to claim 1,
The Zn-Mg-Al-based molten alloy plated steel sheet is a welding method of a plated steel sheet and austenitic stainless steel pipe having a plating deposition amount of 20 ~ 250g / m ² per one side. delete delete

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