KR101320207B1 - Cold crack testing method for thick plate welding zone - Google Patents

Abstract

The present invention provides a specimen preparation step of processing the specimen such that the groove angle of the butt welded portion is 30 ° or more, the gap of the root portion is 1 to 2 mm, and the thickness of the root portion is 1 to 5 mm; A constrained welding step of constraining welding the connection member to the bottom of the specimen so as to be positioned below the root portion; A test welding step of performing a test welding on the root portion after 12 to 16 hours after performing the restraint welding step; And a weld evaluation step of inspecting surface cracks and root cracks of the test welded portion after 48 to 52 hours have elapsed.

Description

CUT CRACK TESTING METHOD FOR THICK PLATE WELDING ZONE}

The present invention relates to a low temperature crack susceptibility evaluation method of butt welds, and more particularly, to a low temperature crack susceptibility evaluation method of the extreme material.

In general, in high tensile steel, the higher the strength and the thicker the steel, the higher the content of the alloying element. The higher the content is, the higher the weld hardness is, so that the overall weldability is deteriorated, so that low temperature cracking is more likely to occur.

Cold cracking occurs at temperatures below 300 ° C or within 48 hours after welding metal solidification. Particularly, cracks occurring within 48 hours after solidification are called delayed bacteria.

Low temperature cracks are caused by shrinkage stress or stress concentration due to thermal deformation, and cracks penetrate inside the grain boundary.

The most caution in superficial cracks is root cracks which occur in the butt welds of butt welds and in the heat affected zone near the roots of superelevations.

This often occurs on the surface in the form of longitudinal cracks, but often occurs in the heat affected zone, gradually grows into the weld bead and gradually progresses over several days.

Related prior art is Korean Patent Publication No. 1999-0050922 (published July 5, 1999).

SUMMARY OF THE INVENTION An object of the present invention is to provide a low temperature crack susceptibility evaluation method of a butt welded part that can be subjected to low temperature crack susceptibility evaluation of a thick plate material under conditions similar to actual butt weld construction conditions to select a welding preheating temperature.

Another object of the present invention is to provide a fast and accurate evaluation method for selecting the appropriate welding conditions in the field.

The present invention provides a specimen preparation step of processing the specimen such that the groove angle of the butt welded portion is 30 ° or more, the gap of the root portion is 1 to 2 mm, and the thickness of the root portion is 1 to 5 mm; A preheating step of preheating the specimen; A constrained welding step of constraining welding the connection member to the bottom of the specimen so as to be positioned below the root portion; A test welding step of performing a test welding on the root portion after 12 to 16 hours after performing the restraint welding step; And a weld evaluation step of inspecting surface cracks and root cracks of the test welded portion after 48 to 52 hours have elapsed.

The preheating is to form 6kJ / cm or more, and when it is 0 degrees Celsius or less, it is preferable to preheat a predetermined time to 20 degrees Celsius.

In the welding part evaluation step, when the surface crack does not occur, it is preferable to cut the plurality of sections of the specimen at equal intervals and measure whether the root crack is generated.

In the welding part evaluation step, after washing the surface of the test welded part, applying a colored penetration solution to the washed surface of the test welded part, removing the colored penetration solution applied, and then applying a white developer solution. It is preferable to observe the penetration of the penetration liquid, and to measure the occurrence frequency and the length of the surface crack when the crack is generated.

In the welding part evaluation step, it is preferable to measure the Vickers hardness of the cut section by cutting the test welded portion.

The Vickers hardness measurement is preferably carried out at three points in the base material portion, 10 points or more in the grain granulation region of the weld heat affected zone.

The connecting member may be formed of a ceramic material, form a predetermined thickness, and form a predetermined width such that a width of a surface in close contact with the bottom surface of the specimen includes the root gap.

The present invention has the effect of performing the low temperature crack susceptibility evaluation for the thick plate material under conditions similar to the actual butt welding construction conditions, to select the welding preheating temperature.

In addition, the present invention by providing a method for evaluating the low temperature cracks that may occur in the butt weld portion of the thick plate used in shipyards, it has the effect of determining whether the butt weld portion crack of the thick plate material in advance.

In addition, the present invention can check in advance whether the welding crack generated in the seal member can prevent the welding crack in the production of the ship, it can reduce the welding repair process (repait) additionally required when the weld crack occurs. It has the effect of shortening the working time and improving productivity.

1 is a perspective view showing a specimen for a low temperature crack susceptibility evaluation method of the present invention.
2 is a cross-sectional view showing a specimen for a low temperature crack susceptibility evaluation method according to the present invention.
3 is a conceptual diagram showing a crack occurrence evaluation method using a penetration solution and a developer.
4 is a view showing the Vickers hardness measurement point of the cross section of the test weld by way of example.

Hereinafter, a low temperature crack susceptibility evaluation method of the butt welded part of the present invention will be described with reference to the accompanying drawings.

Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, only the present embodiments to make the disclosure of the present invention complete, and common knowledge in the technical field to which the present invention belongs. It is provided to fully inform the person having the scope of the invention, which is defined only by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

The present invention is to cut the specimen using the thick plate material actually used in shipyards, and to give the specimen a butt welding condition similar to the seal member to evaluate the occurrence of low-temperature cracks in the weld to solve the problems that may occur in the weld before manufacturing the ship It is intended to be found in advance.

The low temperature crack susceptibility evaluation method according to the present invention is the specimen preparation step of processing the specimen so that the groove angle of the butt welded portion is 25 ~ 35 °, the root portion is 1 ~ 2mm, and the c-shaped connection after abutting the root portion of the specimen Restraint welding step of restraining the member on the bottom surface, test welding step of performing test welding on the root part after 12-16 hours after the restraint welding step, and performing the test welding step 48 to 52 And a weld evaluation step of inspecting surface cracks and root cracks of the test weld after a lapse of time.

1 is a perspective view showing a specimen for a low temperature crack susceptibility evaluation method of the present invention. 2 is a cross-sectional view showing a specimen for a low temperature crack susceptibility evaluation method according to the present invention.

The butt weld low temperature crack susceptibility evaluation method of the present invention provides a specimen having a shape as shown in Figs. 1 and 2 using a thick plate to be used for butt welding.

Referring to FIG. 1, two specimens 110 and 120 are prepared, and the prepared two specimens 110 and 120 are processed in a symmetrical shape so that they may be opposed to each other.

Referring to FIG. 2, the groove 10 having a V-shape or a U-shape is formed on the butt portion 130. The lower end of the groove 10 is rounded along the bottom.

The thickness t of the root portion corresponding to the height of the butt portion 130 may be set to 1 to 5 mm. Moreover, it is good to set the gap G of the said root part to 1-5 mm. This is to impose conditions similar to the actual butt welding conditions.

Here, it is preferable to process the thickness of the specimen 110, 120 to 50 to 60mm.

Since the test welding is made along the butt portion 130 of the test piece (110, 120), if the width (W) of the test piece (110, 120) is narrower than the above range, the welding work is not easy and the connection member (to be described later) 200) Constrained welding is not easy and correct weld evaluation cannot be made.

In addition, when the width of the specimen (110, 120) is wider than the above range, waste of unnecessary material may occur.

The length (L) of the specimen (110, 120) is preferably 900 ~ 1100mm. The length L of the specimens 110 and 120 may correspond to the welding length of the test welding section.

If the length is less than the range, the length of the weld is short, so that proper evaluation cannot be made. If the length is exceeded, the specimen is excessively large, waste of material occurs, and the welding time can be long.

The angle θ of the groove 10, which is a portion to which welding is to be performed, is preferably formed at 30 degrees or more. Preferably, the angle θ of the groove 10 is included in the range of 30 to 40 degrees.

This is to impose a condition similar to the welding condition of the seal member.

Subsequently, the specimens 110 and 120 are preheated. The preheating is to form 6kJ / cm or more, and when it is 0 degrees Celsius or less, it is preferable to preheat a predetermined time to 20 degrees Celsius.

This is to perform low temperature crack susceptibility evaluation in accordance with the preheating temperature.

After preparing the specimens 110 and 120 of the above-described standard, as shown in FIG. 2, the restraint welding is performed using the connecting member 200 on the bottom surface of the specimen as shown in FIG. 2.

The upper surface of the connection member 200 has a predetermined width so as to include the gap G of the root portion. The connection member 200 is formed of a ceramic material and forms a predetermined thickness.

The upper surface of the connection member 200 is fixed in close contact with the bottom of the specimen (110, 120) to include a gap (G) of the root portion.

Here, the center of the connection member 200 may be positioned in the center of the butt unit 130.

Subsequently, the upper end of the connection member 200 is welded to each of the specimens 110 and 120 by restraint welding to fix the two specimens 110 and 120 in a butted state.

When the restraint welding is performed as described above, because of this, the specimens 110 and 120 are heated. Therefore, it is preferable to perform test welding after 12-16 hours after the restraint welding of the connecting member 200 to the bottom surfaces of the specimens 110 and 120. . If test welding is performed before 12 hours of constrained welding, the effect of constrained welding may remain on the specimen. Performing test welding after 16 hours will result in excessive evaluation time delay.

After restraint welding the specimens 110 and 120, the end tabs 210 and 220 are attached to both ends of the welded portion as shown in FIG. 1.

Although not shown in the drawings, the end tabs 210 and 220 may further include a welding guide groove corresponding to the groove 10 of the weld portion. This can ensure the effective section of the specimen by preventing the start point and the end point of the welding of the end taps 210 and 220 are not generated inside the specimen.

After installing the end taps 210 and 220 as described above, the test welding is performed along the butt portion 130 in the welding groove 10 by one pass.

After performing the test welding, the surface cracks (or lateral cracks) and root cracks of the test welds are inspected, which means that cold cracks occur after 48 hours after welding. Low temperature cracks are caused by shrinkage stress or stress concentration due to thermal deformation and cracks penetrate inside the grain boundary.

In the case where the surface crack did not occur, the specimen is cut into a plurality of parts at regular intervals. Preferably it is cut | disconnected to form 5 cross sections.

Then, the cross section cut as described above is enlarged to a minimum of 50 times by using an optical microscope to investigate the presence of root crack generation of the weld metal and the heat affected zone, and the crack incidence rate is measured.

In addition, the presence of surface cracks in the test welded part is observed through visual and PT tests.

In other words, the penetration solution and the developer may be used to more easily check the occurrence of cracks. If no cracks are observed by visual identification, additional cracks are to be examined using a penetration solution and developer.

The PT test will be described.

Figure 3 shows the crack generation evaluation method using the penetration solution and the developer.

First, the beads of the test weld are washed to smooth the surface.

Subsequently, the colored penetration liquid 71 is sprayed onto the surface of the washed test weld bead to allow the penetration liquid to penetrate the microcracks 73. 'A' of FIG. 3 shows a state in which the penetration liquid 71 is applied to the test welding part and the penetration liquid penetrates into the defect.

Then, wipe the surface of the test weld. 'B' of FIG. 3 shows a state in which the penetration liquid on the surface of the test weld is wiped off, and shows a state in which the penetration liquid remains inside the defect.

The white developing solution 72 is apply | coated uniformly to the surface of a test welding part, and it observes. 3 illustrates a state in which a white developer 72 is coated on the surface of the test weld, and FIG. 3 illustrates a state in which a developer penetrates a defect internal penetration solution. When the developer is applied and observed, the permeation solution 71 oozes over the surface of the test weld portion by the white developer 72 at the site where the defect is generated, so that the defective portion can be easily identified.

At the occurrence of cracks, the frequency of occurrence of surface cracks and the length of occurrence are measured.

When no crack was observed by the above-described method, the Vickers hardness of the heat affected zone by welding was evaluated by observing the test weld and measuring the hardness.

4 is a view showing the Vickers hardness measurement point in the cross section of the test weld by way of example.

Vickers hardness is measured by applying a load of 10kg, it is preferable to measure at least 3 points in the base material area, at least 10 points in the grain assembly zone of the heat affected zone (Heat Affect Zone).

Here, if the measurement point is too low, the reliability of the evaluation is low, and if the measurement point is too many, the time required is increased. 150 denoted by 'x' represents the Vickers hardness measurement point.

If the measured Vickers hardness is all 300Hv or less, it can be evaluated that the low temperature cracking property of the weld is excellent, and if it is not satisfied, it can be predicted that the possibility of the first layer cracking due to the increase of the weld hardenability is sensitive.

The 300 Hv is a critical hardness value of undercut generation due to hydrogen embrittlement of the weld heat affected zone.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, the present invention is not limited to the above embodiments, but may be embodied in different forms, and having ordinary skill in the art to which the present invention pertains. It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without changing the technical spirit or essential features of the present invention. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

110, 120: Psalms
130: butt
200: connecting member

Claims (6)

A specimen preparation step of processing the specimen so that the groove angle of the butt welded portion is 30 ° or more, the gap of the root portion is 1 to 2 mm, and the thickness of the root portion is 1 to 5 mm;
A preheating step of preheating the specimen;
Constrained welding step of constrained welding the connecting member to the bottom of the specimen to be located below the root portion;
A test welding step of performing a test welding on the root portion after 12 to 16 hours after performing the restraint welding step; And
Butt weld joint low temperature crack susceptibility evaluation method comprising a; weld stage evaluation step of inspecting the surface crack and root crack of the test welded part after 48 to 52 hours.
The method of claim 1,
The preheating is to form more than 6kJ / cm, if less than 0 degrees Celsius, preheated to 20 degrees Celsius for a certain time,
The welding part evaluation step
If the surface crack does not occur,
Butt weld low temperature crack susceptibility evaluation method characterized in that by cutting a plurality of cross-sections of the specimen at equal intervals to determine whether the root crack occurs.
The method of claim 1,
The welding part evaluation step
Clean the surface of the test welded part,
Apply colored penetrant to the surface of the test welded portion which has been cleaned,
After removing the colored penetrating solution applied, observe that the penetrating liquid is seeping after applying a white developer,
When the crack is generated, butt weld joint low temperature crack susceptibility evaluation method, characterized in that for measuring the occurrence frequency and the occurrence length of the surface cracks.
The method of claim 1,
The welding part evaluation step
Butt welded low temperature crack susceptibility evaluation method characterized by measuring the Vickers hardness of the cut section by cutting the test welded portion.
5. The method of claim 4,
The Vickers hardness measurement is three points in the base material, the low temperature cracking susceptibility evaluation method of the butt welds, characterized in that carried out at least 10 points in the grain assembly area of the weld heat affected zone.
The method of claim 1,
The connecting member is formed of a ceramic material,
Forming a predetermined thickness, but the width of the surface in close contact with the bottom surface of the specimen to form a predetermined width so as to include the root gap, butt weld joint low temperature crack susceptibility evaluation method.

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