KR20190074768A - Weld joint of ultra high strength hot rolled steel sheet having excellent fatigue property and method of the same - Google Patents

Abstract

The present invention relates to a welding joint of an ultra high-strength hot rolled steel material and a manufacturing method thereof. According to an embodiment of the present invention, the welding joint includes: a welding bead formed by welding an area formed by partially overlapping a plurality of steel materials; and a base material melting part formed in a part of the lower part of the welding bead and an area from an end of the welding bead to the front side within 2.0 mm. The minimum hardness of the base material melting part is no less than 370 Hv and the maximum hardness is no less than 420 Hv, and the average hardness of the welding bead is no less than 350 Hv. According to an embodiment of the present invention, fatigue characteristics of a welding part of an ultrahigh-strength hot rolled steel material having a tensile strength of no less than 1 GPa and a thickness of no more than 6 mm can be effectively improved, and thus, the welding joint can be preferably applied to a vehicle chassis component.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a welded joint of an ultra-high strength hot-rolled steel having excellent fatigue characteristics,

The present invention relates to a welded joint of a super high strength hot-rolled steel having excellent fatigue characteristics and a manufacturing method thereof.

In the field of automobiles, research on lightweighting of body and parts has emerged as a big issue due to the policy of regulating fuel consumption through environmental protection, such as global warming. In accordance with this trend, it is necessary to apply high strength steels for weight reduction of chassis parts which are important for the driving performance of a car. In order to attain lighter parts, strengthening of materials is essential, and guaranteeing the durability of parts made of high strength steel is an important factor in the environment where repeated fatigue load is applied. In the case of arc welding, which is mainly used for securing strength when assembling automobile chassis components, welded beads having a geometric shape are formed because welding is performed by lap welding between parts by welding welding wires. However, such a geometrically shaped weld bead acts as a repetitive fatigue stress concentrator (notch effect) to become a starting point of rupture, resulting in a deterioration in the durability of parts, and thus has the limitation of losing the advantage of high strength steel application. In order to improve the fatigue characteristics of the welded part, it is important to reduce the angle (toe angle) of the weld bead end portion (welded toe portion), which is the stress concentration portion, and it is important to control the material and stress of the toe portion .

Patent Document 1 discloses that, in order to improve the fatigue characteristics of the steel arc welded portion with a plate thickness of 5 mm or less and a tensile strength of 780 MPa or more, the position of the minimum hardness of 0.1 mm in depth from the surface of the weld bead toe portion should be 0.3 mm or more from the toe portion Respectively. Patent Document 2 proposes that fatigue characteristics can be improved by applying compressive stress by forming a plastic deformation region by successively striking the end of the weld bead with a chipper (striking pin). However, in the case of a shot ball (ball diameter: 0.2 to 0.4 mm) pinning using the proposed chipping method and a conventional pneumatic method, deformation of the object after pinning may occur, And it is disadvantageous that defects such as microcracks may occur in a weld bead having a relatively high brittleness when applied to a local site like a weld bead end portion.

Patent Document 3 proposes that the fatigue strength of 250 MPa or more can be secured by re-melting both the base material and the weld bead through the plasma heat source around the bead end of the 780 MPa hot-rolled steel plate lap joint welding area. However, the above-mentioned method has a limitation in practical application when considering the fact that the plasma heat source device is expensive.

On the other hand, a method for improving the fatigue characteristics of an ultra-high strength hot-rolled steel arc welded part having a tensile strength of 1 GPa or more has not been specifically proposed.

Japanese Patent Application Laid-Open No. 2013-220431 Japanese Patent Application Laid-Open No. 2014-014831 Japanese Patent Application Laid-Open No. 2014-004609

One aspect of the present invention is to improve the surface modification and bead shape of the lap joint welded portion which is a factor of fatigue strength and life degradation through local re-melting of the weld metal portion using a tungsten inert gas arc heat source, And a method for manufacturing the same.

An embodiment of the present invention is a weld bead comprising: a weld bead formed by partially overlapping a plurality of steel members and welding the overlapped region; And a base material fused portion formed in a region within 2.0 mm forward from the welding bead end portion and a portion of the lower portion of the welding bead, wherein the minimum hardness of the base material fused portion is 370 Hv or more, the maximum hardness is 420 Hv or more, Has an average hardness of 350 Hv or more, and provides a welded joint of super high strength hot-rolled steel excellent in fatigue characteristics.

Another embodiment of the present invention is a welding method comprising: a first welding step of partially overlapping a plurality of steel materials and then welding the overlapped areas so that a weld bead is formed; And a secondary welding step of providing a TIG arc heat source through an arc torch at a position 0.5 to 1.5 mm forward from the end of the weld bead to melt and weld the part of the weld bead and the base material, A method for manufacturing a welded joint of an ultra-high strength hot-rolled steel excellent in fatigue characteristics in which the feed rate of the torch is 0.4 to 0.6 m / min and the irradiation angle of the arc heat source is 25 to 30 °.

According to one aspect of the present invention, it is possible to effectively improve the fatigue characteristics of the welding portion of the ultra-high strength hot-rolled steel having a tensile strength of 1 GPa or more and a thickness of 6 mm or less, and thus can be suitably applied to chassis components of an automobile.

1 is a cross-sectional view showing a welded joint according to an embodiment of the present invention.
Fig. 2 is a cross-sectional view of a welded joint according to an embodiment of the present invention and an arc torch for manufacturing it.

The inventors of the present invention conducted research to improve the fatigue characteristics of the welded portion of ultra high strength steels having a tensile strength of 1 GPa and a thickness of 6 mm or less without causing defects such as weld bead microcracks and deformation of the material to be welded. The surface modification and bead shape improvement can be achieved by locally re-melting the weld bead and the base material by providing a tungsten inert gas (TIG) arc heat source near the end of the weld bead (hereinafter also referred to as a "welded toe"), And the fatigue characteristic can be improved to an excellent level, thereby ultimately leading to the proposal of the present invention.

Hereinafter, the present invention will be described.

1 is a cross-sectional view showing a welded joint according to an embodiment of the present invention. 1, a weld joint according to an embodiment of the present invention includes a plurality of steel members, that is, one steel member 1 is positioned on the upper side of another steel member 2 on the lower side, And a welding bead 10 formed by overlapping a part of the steel materials 1 and 2 and welding the overlapped area. At this time, the weld bead 10 may be formed only in one of the regions where the steel materials 1 and 2 overlap (the edge portion of one steel material and the plane portion of the other steel material) Region, and the present invention includes both of these cases.

The welded joint of the present invention has an area within 2.0 mm in front of the weld bead end (welded toe part) 11 (in the direction of arrow in FIG. 1) and a welded part of the base material fused part 20, . By forming the base material fused portion 20 as described above, it is possible to effectively improve the crack initiation and resistance to propagation due to the repetitive fatigue stress action through the modification of the heat affected portion of the welded toe portion as the stress concentration portion during fatigue. Through the proper re-melting and component dilution between the preformed weld metal and the base material in the region where the area of the base material fused portion 20 is within 2.0 mm from the front end of the weld bead (welding toe portion) In addition to the strengthening effect of the material of the part, the shape of the weld bead, that is, the stress concentration concentration reduction effect by increasing the radius of curvature of the weld bead can be obtained. On the other hand, when the area of the base material fused portion 20 exceeds 2.0 mm from the front end of the weld bead (welding toe portion), the hardening ability of the re-melting portion due to proper melting and dilution between the weld metal portion and the base material And the amount of re-melting of the weld metal portion is insufficient, so that it may be difficult to secure the shape and curvature of the weld bead for relieving stress concentration.

The base material fused portion 20 is an area formed by being melted by a TIG arc heat source and then cooled. The TIG arc heat source is generally advantageous in that it can be easily introduced into the production site due to the ease of melting the base material and the low cost of welding compared to other welding due to the positive polarity of the arc. In addition, the base material fused portion 20 preferably has an average depth of 0.5 to 2.0 mm. If the depth of the molten portion is less than 0.5 mm, it is impossible to sufficiently melt and cure the softened portion. On the contrary, if the depth of the molten portion exceeds 2.0 mm , The re-melting heat quantity is excessive and the re-melting effect is lowered due to the lowering of the hardenability of the molten portion and the secondary material softening.

At this time, it is preferable that the minimum hardness of the base material fused portion is 370 Hv or more, the maximum hardness is 420 Hv or more, and the average hardness of the weld bead is 350 Hv or more. By securing a high level hardness, the tensile strength and the yield strength can be improved, and ultimately, the fatigue strength of 270 MPa or more can be ensured, thereby improving the fatigue characteristics of the welded portion. Since the tensile strength of the base material is more than 1 GPa, not only the average hardness of the weld bead should be more than the base metal level, but also the welding hardness of the welding toe portion should be 350 Hv or more . Further, the hardness range of the molten base material is a level that can overcome the fatigue strength deterioration due to the stress concentration of the welded toe.

Fig. 2 is a cross-sectional view of a welded joint according to an embodiment of the present invention and an arc torch for manufacturing it. Hereinafter, a manufacturing method of the welded joint according to the present invention will be described with reference to FIG.

First, a plurality of steel materials, that is, one steel material 1 is placed on the lower side and another steel material 2 is placed on the upper side, and then a part of the steel materials 1 and 2 are overlapped, Welded area is welded to form the weld bead 10. In the present invention, the primary welding step is not particularly limited, and a normal lap welding process used in this technical field can be applied. However, FCAW or MIG welding is preferably applied to the primary welding. For primary welding, FCA welded material with increased carbon is applied to secure sufficient strength of weld metal in comparison with 1GPa grade steel. By using MIG welding, pure Ar welding, stable weld bead .

Thereafter, a TIG arc heat source is provided through the arc torch 100 at a position 0.5 to 1.5 mm away from the welding bead end 11 (TIG arc heat source irradiation position 20 ') to form the welding bead 10, And a secondary welding process in which a part of the base material is melted and cooled. If the thickness is more than 1.5 mm, the melting of the end portion of the weld bead is insufficient and it is difficult to improve the shape of the bead, and it may be difficult to obtain the effect of hardening the weld material due to re-melting and cooling. On the other hand, in the case of less than 0.5 mm, it is difficult to obtain the strengthening effect of the weld heat affected zone due to insufficient melting of the overlapping joint portion side plate. More preferably, the area range is 0.5 to 1.0 mm.

The transfer speed of the arc torch 100 is preferably 0.4 to 0.6 m / min. When the conveyance speed of the arc torch is less than 0.4 m / min, the effect of hardening the material of the end portion of the weld bead is poor. On the other hand, when the arc rate exceeds 0.6 m / min, the melt amount is insufficient and it is difficult to effectively improve the bead shape.

The irradiation angle [theta] of the arc heat source is preferably 25 to 30 [deg.]. When the angle of irradiation of the arc heat source is less than 25 °, it is difficult to improve the shape of the bead due to insufficient melting of the end portion of the weld bead. When the angle exceeds 30 °, it is difficult to obtain the effect of hardening the material due to insufficient melt- There are disadvantages. The irradiation angle of the arc heat source is more preferably 25 to 27 degrees.

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

(Example)

A 1050 MPa DP (Dual Phase) steel with a thickness of 2.9 mm was partially overlapped and then the overlapped region was first welded. Pulsed MIG welding was performed at a welding current of 270 A, a welding voltage of 26 V, and a welding speed of 1.0 m / min using a flux cored wire (FCW) having a strength of 80 kg and a 100% Ar protective gas. Thereafter, TIG arc welding (secondary welding) was performed under the conditions shown in Table 1, followed by cooling to produce welded joints. The mechanical properties and the like of the thus produced weld joint were measured, and the results are shown in Table 2 below.

division TIG arc heat source position (distance from end of weld bead (mm)) Arc torch feed rate (m / min) Arc heat source irradiation angle (°) Inventory 1 1.0 0.4 25 Inventory 2 0.5 0.5 27 Inventory 3 1.5 0.6 26 Honorable 4 1.3 0.4 27 Inventory 5 1.2 0.4 28 Comparative Example 1 2.1 0.5 20 Comparative Example 2 2.2 0.5 25 Comparative Example 3 2.0 0.4 35 Comparative Example 4 0 0.4 25 Comparative Example 5 1.0 0.3 25 Comparative Example 6 1.0 0.7 26 Comparative Example 7 1.5 0.4 24

division (The distance (mm) from the end of the weld bead) The minimum hardness (Hv) of the base material- The maximum hardness (Hv) of the base material- Average depth of the molten part of the base material (mm) Average hardness (Hv) of weld bead Welded joint fatigue strength (MPa) Inventory 1 1.9 372 421 1.8 358 273 Inventory 2 1.8 375 423 1.6 362 271 Inventory 3 2.0 371 422 1.7 355 270 Honorable 4 2.0 373 424 1.9 359 272 Inventory 5 2.0 373 422 1.6 359 271 Comparative Example 1 2.8 362 423 2.2 345 239 Comparative Example 2 2.6 357 413 2.1 343 241 Comparative Example 3 2.5 358 418 1.9 351 237 Comparative Example 4 2.1 368 424 2.3 347 248 Comparative Example 5 2.7 347 407 2.5 327 212 Comparative Example 6 2.2 382 427 1.2 367 223 Comparative Example 7 2.3 370 421 1.8 354 268

As can be seen from Tables 1 and 2, in the case of Inventive Examples 1 to 5 welded in conformity with the TIG arc heat source irradiation position, the arc torch feed rate and the arc heat source irradiation angle proposed by the present invention, The minimum hardness of the base material melted portion is not less than 370 Hv, the maximum hardness is not less than 420 Hv, the average hardness of the weld bead is not less than 350 Hv, and the base material melting portion has an average depth of 0.5 to 2 mm, It can be seen that excellent fatigue strength is secured.

However, in the case of Comparative Examples 1 to 7, since at least one of the TIG arc heat source irradiation position, the arc torch feed rate, and the arc heat source angle proposed by the present invention does not match, the hardness, average depth Or the hardness of the weld bead can not be secured, so that the fatigue strength of the welded joint is low.

1, 2: Steel
10: weld bead
11: weld bead end
20:
20 ': TIG arc heat source irradiation position
100: arc torch

Claims (5)

A weld bead formed by partially overlapping a plurality of steel members and welding the overlapped region; And
And a base material fused portion formed within a region within 2.0 mm forward of the weld bead end portion and a portion of the weld bead bottom portion,
The minimum hardness of the base material fused portion is 370 Hv or more, the maximum hardness is 420 Hv or more,
Wherein the weld bead has an average hardness of 350 Hv or more and is excellent in fatigue characteristics.
The method according to claim 1,
Wherein the base material fused portion has an average depth of 0.5 to 2 mm and is excellent in fatigue characteristics.
The method according to claim 1,
The welded joint is welded to an ultra-high strength hot-rolled steel having a fatigue strength of not less than 270 MPa.
A first welding step in which a plurality of steel materials are partially overlapped and then the overlapped area is welded to form a weld bead; And
And a secondary welding step of providing a TIG arc heat source through an arc torch at a position 0.5 to 1.5 mm forward from the end of the weld bead to melt a portion of the weld bead and the base material,
The transfer speed of the arc torch is 0.4 to 0.6 m / min,
Wherein the irradiation angle of the arc heat source is 25 to 30 DEG.
The method of claim 4,
Wherein the primary welding step uses FCAW or MIG welding and has excellent fatigue characteristics.

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