JP3513382B2 - Arc welding method for galvanized steel sheet - Google Patents

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention has a zinc deposition amount of 30.
Even a welded object made of a galvanized steel sheet with a large amount of zinc adhered such as 0 g / m ² or more can form a weld bead with a good shape, the amount of spatter is small, and the occurrence of pit defects is significantly small. The present invention relates to an arc welding method for galvanized steel sheets, which enables gas shielded arc welding with excellent pitting properties.

[0002]

2. Description of the Related Art A galvanized steel sheet whose surface is galvanized is known as a steel material which is anticorrosive and has excellent corrosion resistance. The main application of galvanized steel sheets is in the field of thin plates such as building materials and automobile bodies, but recently, in order to further improve corrosion resistance, it is often used as a thick coating material with a large amount of zinc, such as water and gas piping materials. It is becoming used.

[0003] Such zinc adhesion amount is, for example, 300 g
When arc welding of galvanized steel sheet with a large amount of zinc deposited such as / m ² or more, zinc is rapidly vaporized by arc heat,
Molten metal such as molten pool and droplets is blown off by the vaporized zinc gas, which causes a large amount of spatter, and pits (pore defects appearing on the bead surface) due to the vaporization of zinc in the welding beads. Or When the spatter is remarkably generated, a large amount of molten metal may be blown off and the weld bead may not be formed.

In order to avoid such harm of zinc, it is effective to mechanically remove zinc from the welding line beforehand by, for example, a grinder, but such a method requires much labor and is extremely inefficient. . Therefore, for the purpose of preventing welding defects such as pits and suppressing the generation of spatter to improve welding workability, in JP-A-61-169196, a shield gas or flux is supplied from the outside. There has been proposed a flux-cored wire for self-shielded arc welding that performs welding without the need for welding. Further, in Japanese Patent Laid-Open No. 6-15484, a gas shielded arc welding flux cored wire obtained by filling a flux containing a slag forming agent, metallic titanium or a mixture of metallic titanium and metallic boron, and a fluoride in a steel shell. Is proposed. However, welding using these wires was not sufficient in eliminating the damage of zinc.

[0005]

OBJECTS OF THE INVENTION It is an object of The present invention is also a welded object zinc coating weight is more than galvanized steel sheet 300 g / m ² or more such zinc coating weight, the molten metal by the vaporized zinc gas Is not blown away, it is possible to form a weld bead with a good shape, the amount of spatter is small, and the occurrence of pit defects is extremely small, and it is possible to perform gas shield arc welding with excellent pit resistance. An object is to provide an arc welding method for galvanized steel sheets.

[0006]

In order to achieve the above-mentioned object, the invention of claim 1 uses a gas shielded arc welding flux cored wire obtained by filling a steel shell with a flux in a weld metal. Is an arc welding method for galvanized steel sheets in which the amount of oxygen is 200 ppm or less and gas shielded arc welding is performed with direct current positive polarity.

According to the invention of claim 2, in the invention of claim 1, the galvanized steel sheet has a zinc adhesion amount of 300 g /
This is an arc welding method for galvanized steel sheets of m ² or more. According to a third aspect of the present invention, in the first or second aspect of the invention, the gas shielded arc welding flux-cored wire is Al + 3Mg + 5Z in weight% with respect to the total weight of the wire.
r: An arc welding method for galvanized steel sheet satisfying 1.5 to 15% by weight. A fourth aspect of the invention is the arc welding method for galvanized steel sheet according to the first, second or third aspect of the invention, wherein the amount of nitrogen in the weld metal is 150 ppm or less. The invention of claim 5 is the same as claim 1,
In the invention of 2, 3 or 4, the amount of P in the weld metal is 10
This is an arc welding method for a galvanized steel sheet with 0 ppm or more.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION In the arc welding method for galvanized steel sheet according to the present invention, a weld bead having a good shape is formed even in the welding of a galvanized steel sheet having a large zinc deposit such as a zinc deposit of 300 g / m ² or more. The following measures have been taken to reduce the generation of spatters and the generation of pits in addition to the formation of pits.

First, regarding the above, focusing on increasing the viscosity of the molten metal so that the molten metal is not blown off by the vaporized zinc gas, gas shielded arc welding in which a strong deoxidizer is contained in the flux A flux-cored wire is used to increase the viscosity by reducing the amount of oxygen in the molten metal due to the effect of the deoxidizer. Further, by adopting DC positive polarity (DC arc welding in which the wire is the negative electrode and the object to be welded is a galvanized steel sheet is the positive electrode), zinc cations collide with the droplets formed at the tip of the wire. Therefore, even if the droplet has a high viscosity and a large surface tension, the droplet easily separates from the wire tip, and the fine droplet due to the collision smoothly transfers to the welded object. By doing so, the arc is stabilized and the amount of spatter generated is reduced. In general, when using a gas shielded arc welding flux-cored wire, the reverse polarity of DC (wire: positive electrode, work piece: negative electrode) is adopted. The collision will cause a large fluctuation in the molten pool.

The oxygen content in the weld metal is 200 pp
By using a gas shielded arc welding flux-cored wire containing a deoxidizer so as to be m or less, a molten bead is not blown off by vaporized zinc gas, and a weld bead having a good shape can be formed. .
More preferably, the amount of oxygen in the weld metal should be 150 ppm or less.

In order to increase the viscosity of the molten metal, a gas shielded arc welding flux-cored wire is used in which the amount of Al + 3Mg + 5Zr is 1.5% by weight based on the total weight of the wire.
Those satisfying the range of up to 15% by weight are effective. Al,
Both Mg and Zr are strong deoxidizers and have the effects of increasing the viscosity of the molten metal and stabilizing the arc in the DC positive polarity. However, if the amount of Al + 3Mg + 5Zr is less than 1.5% by weight, such an effect is not sufficient, while 15% by weight
When it exceeds, the viscosity of the molten metal is too high and the bead is not well-fitted to form a convex bead and the bead shape is deteriorated. Therefore, it is preferable that the amount of Al + 3Mg + 5Zr satisfies the range of 1.5 to 15% by weight. Although Al, Mg and Zr may be added singly or in combination of two or three kinds, it is best to add all three kinds to obtain the best weld bead shape.

Here, regarding the relationship between the amount of oxygen in the weld metal and the wire components, the amount of oxygen tends to decrease as the amount of a strong deoxidizer such as Al, Mg and Zr increases, and Other factors that determine the balance of these deoxidizers and slag agents (fluorides, oxides), and the basicity of the slag cannot be uniquely determined, but the amount of Al + 3Mg + 5Zr mentioned above Is the most influential factor that determines the amount of oxygen in the weld metal. As a strong deoxidizing agent other than Al, Mg, and Zr, Ca, Ti, Si, C, Mn, etc. can be appropriately contained in the flux or / and the steel shell.
Other flux components include fluorides (BaF ₂ , SrF ₂ , CaF _2, etc.) and oxides (MgO _2, etc.) as slag agents.
Fe ₂ O ₃ etc.) can be added. Above all, BaF ₂
Also has the effect of stabilizing the arc with DC positive polarity and reducing the amount of spatter generated. However, as a matter of course, it is necessary to add these within a range in which the amount of oxygen in the weld metal does not exceed 200 ppm.

Regarding the above, in the method according to the present invention, the nitrogen content in the weld metal is set to 150 ppm or less and the P content in the weld metal is set to 100 ppm or more in order to suppress the generation of pits. I am trying to become.

A larger amount of nitrogen generated from the molten metal promotes pit formation, and a smaller amount of nitrogen results in better pit resistance. In the method according to the present invention, the gas shield welding method is adopted instead of the self-shield welding method so that the welded portion is shielded from contact with the surrounding air. By arc-welding flux-cored wire for direct current positive welding, fine droplets are smoothly transferred to eliminate the entrainment of the atmosphere, so that the amount of nitrogen in the weld metal is 150 ppm or less, which is excellent. The pit resistance can be obtained. The amount of nitrogen in the weld metal is more preferably 100 ppm or less.

P is a stable compound with zinc (P-Zn system,
P-Zn-Fe system) is generated, and this has the effect of reducing the amount of zinc gas generated and suppressing pit generation. However, as a matter of course, the effect of P is not exerted in a bad state where the molten metal is blown off by the vaporized zinc gas. In the method according to the present invention,
A deoxidizer is added so that the oxygen content in the weld metal is 200 ppm or less, and the P content in the weld metal is 100 pp.
It is preferable to use a gas shielded arc welding flux-cored wire containing P so as to have m or more.

In the method according to the present invention, as the shield gas, in addition to carbon dioxide gas, a mixed gas mainly containing argon (Ar—CO ₂ mixed gas, Ar—O ₂ mixed gas) and a mixed gas mainly containing helium are used. Carbon dioxide is good because it is usable and economical. With respect to the wire cross-sectional shape of the flux-cored wire used, for example, various wire shapes shown in FIGS. 1A to 1D can be adopted.

The zinc adhesion amount on the galvanized steel sheet is measured by the antimony chloride method specified in JIS H 0401. Usually, welding joins two steel plates forming a joint, and the value with the larger zinc adhesion amount is taken as the zinc adhesion amount in the present invention. As the welded joint, it is applicable to welding of various ordinary welded joints such as a fillet welded joint for a T joint, a fillet welded joint for a lap joint, and a butt joint. Regarding the amount of oxygen, the amount of nitrogen and the amount of P in the weld metal, JIS Z 3184
Each analytical sample is prepared by the method for preparing a sample for chemical analysis of deposited metal according to, and the value is measured.

[0018]

[Examples] Steel skins having the chemical composition shown in Table 2 (JIS G 3141
(Corresponding to SPCC-SD) was used to manufacture a gas shielded arc welding flux-cored wire having the configuration shown in Table 3. The wt% in Table 3 is the weight ratio with respect to the total weight of the wire. Each wire has a wire diameter of φ1.4 mm and a wire cross-sectional shape as shown in FIG. 1 (b).

Using these wires, under the welding test conditions shown in Table 1, galvanized steel sheets having a zinc adhesion amount of 600 g / m ² were subjected to carbon dioxide arc welding with direct current positive polarity to obtain a weld bead shape (shape (unevenness), smoothness). And uniformity of bead width), spatter generation amount (sputter resistance), and pit resistance were evaluated. The evaluation is ◎ (extremely good), ○ (good),
It was rated as Δ (slightly inferior) or × (inferior). In the evaluation of pit resistance, the number of pits generated at a welding length of 500 mm was zero, and the number of pits was one, and the number of pits was 1-2. As for the welding test results, Table 3 shows the amounts of oxygen, nitrogen and P in the weld metal.
And the evaluation is shown in Table 4.

[0020]

[Table 1]

[0021]

[Table 2]

[0022]

[Table 3]

[0023]

[Table 4]

No. In the comparative example of 3, since the amount of oxygen in the weld metal exceeds the upper limit defined by the present invention and the viscosity is low,
Molten metal was blown away by the zinc gas, a large amount of spatter was generated, and a usable welding bead was not formed. No. In the comparative example of 4, since the DC reverse polarity was adopted, the molten pool was greatly disturbed, the weld bead shape was bad, and spatter frequently occurred. In addition, this No. 3, N
o. In the comparative example of 4, the pits were not evaluated because the weld bead shape was too bad.

On the other hand, in No. 1, No. 7, N
o. Each of the invention examples of No. 8 is a weld bead having a good shape, even if the object to be welded is made of a galvanized steel sheet having a large amount of deposited zinc (600 g / m ² ) without the molten metal being blown off by the vaporized zinc gas. Can be formed, the amount of spatter generated is small, and welding can be performed without the formation of pits. In particular, Al, Mg, and Zr, which are strong deoxidizers, can be used.
No. using a wire containing all seeds In the invention example of 8, the shape of the weld bead was extremely good. In addition, No. In Example 2 of the invention, the amount of oxygen in the weld metal is lower than the upper limit and low, but the amount of Al + 3Mg + 5Zr is lower than the recommended range and the arc stability is slightly inferior. A little more, while No. In the invention example of 6, the amount of Al + 3Mg + 5Zr exceeded the recommended range, the viscosity was slightly high, and the weld bead became convex. In addition, No.
In the invention example of 5, the P content is below the recommended lower limit value, and the pit resistance is slightly inferior.

[0026]

As described above, according to the arc welding method for galvanized steel sheet according to the present invention, the amount of zinc deposited is 30.
Even for a welded object made of a galvanized steel sheet with a large amount of zinc attached, such as 0 g / m ² or more, a molten bead is not blown off by vaporized zinc gas, and a weld bead with a good shape can be formed, resulting in spattering. It is possible to perform gas shielded arc welding with a small amount of pits and extremely few pits and excellent pit resistance, and mechanically remove zinc from the welding line beforehand, for example, by a grinder, or rework the welding beads. It is possible to contribute to higher welding efficiency of galvanized steel sheets with a large amount of zinc deposited, which has been increasingly used in recent years.

[Brief description of drawings]

FIG. 1 is a diagram schematically showing an example of a cross-sectional shape of a flux-cored wire used in a method according to the present invention.

[Explanation of symbols]

M ... Steel skin F ... Flux

─────────────────────────────────────────────────── --- Continuation of the front page (56) Reference JP-A-2-55696 (JP, A) JP-A-10-180487 (JP, A) JP-A-9-206945 (JP, A) JP-A-5- 228691 (JP, A) JP-A-4-294869 (JP, A) JP-B-63-57155 (JP, B2) (58) Fields investigated (Int.Cl. ⁷ , DB name) B23K 35/368 B23K 9 / 23 B23K 35/30

Claims (5)

(57) [Claims] 1. A method for arc-welding a galvanized steel sheet, wherein a gas shielded arc welding flux-cored wire having a steel shell filled with a flux is used to reduce the oxygen content in the weld metal to 200 ppm or less. An arc welding method for galvanized steel sheet, which comprises performing gas shield arc welding with direct current positive polarity. 2. The arc welding method of a galvanized steel sheet according to claim 1, wherein the galvanized steel sheet has a zinc adhesion amount of 300 g / m ² or more. 3. The gas shielded arc welding flux-cored wire, in wt% relative to the total weight of the wire, is Al + 3.
Mg + 5Zr: 1.5-15 weight% is satisfied, The arc welding method of the galvanized steel plate of Claim 1 or Claim 2 characterized by the above-mentioned. 4. The arc welding method for galvanized steel sheet according to claim 1, wherein the amount of nitrogen in the weld metal is 150 ppm or less. 5. The arc welding method for galvanized steel sheet according to any one of claims 1 to 4, wherein the amount of P 2 in the weld metal is 100 ppm or more.