KR20060017935A - Cooling method of hot rolled wire - Google Patents

Abstract

        The present invention relates to a method for cooling a hot rolled wire rod which cools the wire rod while preventing red scale from being generated on the wire rod surface during cooling of the hot rolled wire rod.

       The present invention relates to a method of cooling a hot rolled wire rod in which a wire rod rolled in a filament rolling mill is located between a filament rolling mill and a winding device of the wire rod and cools the hot rolled wire rod on a line on which at least one cooling stand is installed. When the temperature is maintained at 900 ° C or above and exposed to the atmosphere for 0.05 to 0.5 seconds before entering the first cooling stand, the first cooling stand is entered, and when the RSM facility is located before or before the cooling stand, Provide a method of cooling hot rolled wire that is maintained at 900 ° C or higher at the exit of the installation and exposed to the atmosphere for 0.05 to 0.5 seconds before entering the cooling zone located next to the RSM installation and then entering the subsequent cooling zone.

According to the present invention, the hot rolled wire rod can be cooled while suppressing red scale generation on the surface of the hot rolled wire rod by setting working conditions and repositioning the process line. In addition, the present invention does not require a separate reheating process, unlike the prior art, it can be applied regardless of the cooling table installation conditions.

Hot rolled wire rod, red scale, cooling stand, whisker type oxide, oxide film

Description

 Cooling Method of Hot Rolled Wire Rod             

1A and 1B are scanning electron micrographs of wire rods with red scale and wire rods with no red scale, respectively.

Figure 2 is a schematic view of the manufacturing process of the wire rod according to the present invention.

Figure 3 is a schematic view of the manufacturing process of the wire rod according to the present invention, including the RSM equipment.

 The present invention relates to a method for cooling a hot rolled wire rod, and more particularly, to a method for cooling a hot rolled wire rod that cools the wire rod while preventing red scales from being generated on the wire rod surface when the hot rolled wire rod is cooled.

Before winding the wire rod rolled in the filament rolling machine of the hot rolling mill in the winding device, the hot rolled wire rod is cooled and wound on a line where one or more cooling zones are installed. Oxides such as FeO, Fe ₂ O ₃ and Fe ₃ O ₄ grow by high temperature oxidation. Observing the red scale wire rod surface with a scanning electron microscope (see FIGS. 1A and 1B) shows that Fe ₂ O ₃ is developing in a whisker shape. The whisker type Fe ₂ O ₃ oxide on the surface of steel It is easy to produce under high temperature oxidation conditions, and its formation is known to be accelerated when voids or fine cracks occur in the surface structure of the scale formed on the steel surface (DAVoss et al., Metall. Trans. A, vol. 13A, pp. 929-935, 1982)

The generation of red scale does not affect the material itself, but it is easy to drop off from the surface of the wire and is easily dusted, which may deteriorate the working environment. There is a need for a solution.

Japanese Laid-Open Patent Publication (S) 57-106423 adjusts the setting of the water cooling time (tw) and the cooling rate (Vtc) at the time of secondary cooling in the air, thereby adjusting tw≤ {4.25x10 ^-3 (min / ℃) /min)+0.57}, it can be suggested that the red scale of the wire surface can be prevented if the condition is satisfied. However, this may limit the manufacturing speed of the wire rod, and since the above formula is determined experimentally, there is a limit to general applications.

Japanese Unexamined Patent Publication No. 8-1232 discloses that the cause of the red scale is hot rolling through a recuperative process in that a whisker type red scale is generated by the diffusion of oxygen through the potential generated by the slip between crystals. By relieving the outermost layer stress of the wire rod, the slip phenomenon of the wire layer crystal is suppressed and the red scale is suppressed. This method requires a separate reheating process between the cooling stage and the cooling stage, and the thermal stress relaxation rate depends on the cooling capacity before the reheating process.

It is an object of the present invention to provide a method for cooling a hot rolled wire rod that does not require a separate reheating process and can be applied regardless of cooling stand facility conditions, and easily suppresses red scale on the surface of the hot rolled wire rod. According to the present invention it is possible to achieve the above object by setting the working conditions and rearrangement of the process line.

To this end, the present invention is a method for cooling hot rolled wire rod for cooling the hot rolled wire rod on the line where the wire rod rolled in the finishing mill of the hot rolling mill between the finishing mill and the winding device of the wire rod is installed. A method of cooling a hot rolled wire, wherein the wire rod temperature at the exit of the finishing mill is maintained at 900 ° C. or higher and exposed to the atmosphere for 0.05 to 0.5 seconds before entering the first cooling zone, followed by entering the first cooling zone. .

In addition, the present invention is located in the RSM facility before the cooling stand or in the middle of the plurality of cooling stand, maintaining the wire rod temperature at the exit of the RSM facility above 900 ℃ and wait for 0.05 ~ 0.5 seconds before entering the cooling stand located after the RSM equipment It provides a method of cooling hot rolled wire, characterized in that it enters the subsequent cooling zone after exposure in the middle.

Hereinafter, the present invention will be described in detail.

The inventors have examined the behavior of the red scale on the surface of the hot rolled wire through various experiments. As a result, the generation of the whisker-like oxide causing the red scale tends to develop in a high temperature steam atmosphere, especially in a specific temperature range. I noticed intensive development. That is, according to the observation result of the whisker-type oxide formation behavior, the development of the whisker-type oxide is remarkable in the temperature range of 780 ~ 880 ℃ in the steam atmosphere, but the development of the whisker oxide is suppressed in the steam atmosphere at temperatures above 880 ℃, Below 780 ° C, whisker-like oxides were produced, but the growth rate was found to be very slow. This is because FeO-type dense oxides grow stably and preferentially instead of whisker-type oxides at a high temperature of 880 ° C or higher, and the growth rate of whisker-type oxides is slowed because the diffusion rate of oxygen is lowered when the temperature is lowered below 780 ° C. The present invention has been made based on these observations.

Figure 2 shows the wire rod manufacturing process from finishing the winding of the wire rod according to the present invention to the winding. The hot rolled wire is cooled after passing through a cooling line provided with one or more cooling zones after finishing rolling in the finishing mill 1a and before being wound up in the winding machine 4. 2 shows a cooling line in which four cooling zones 2a to 2d are installed. Cooling in the cooling zone is usually by water cooling. The present invention is characterized in that the wire rod temperature at the exit of the finishing mill is maintained at 900 ° C. or higher and exposed to the atmosphere for 0.05 to 0.5 seconds before entering the first cooling zone, and then enters the first cooling rod. Air-cooled for a short time above ℃ to form a dense oxide of FeO type on the surface of the wire rod to suppress the generation of red scale even if the wire passes through the temperature range where the development of the whisker-type oxide in the steam atmosphere of the subsequent cooling zone. to be.

In general, the wire rod proceeds at a very high speed (for example, 100 m / s), so in order to maintain the productivity while maintaining the productivity, the distance 3a between the finishing mill and the first cooling stand 2a must be properly adjusted. do.

2 shows a cooling line in which four cooling zones are installed. However, the present invention is not limited thereto, and the number of cooling stages is sufficient to be 1 or more. Further, the exit temperature of the wire rod is more than 950 ° C. Air cooling time is 0.1 ~ 0.2 seconds.

Figure 3 shows the wire rod manufacturing process in the case of placing the Reduction and Sizing Mill (RSM) equipment in the middle of the cooling stand. RSM facilities are hot-rolled and rolled hot-rolled steel wires to make steel wires with a small tolerance. It is common to install these facilities in a new wire mill to increase productivity and precision of wire rods.

In the case of using the RSM equipment in the wire rod manufacturing process as described above, the present invention maintains the wire rod temperature at the exit of the RSM equipment at 900 ° C or higher and exposes it to the atmosphere for 0.05 to 0.5 seconds before entering the cooling stage located next to the RSM equipment and then cools it down. It is characterized by entering. This is to form a dense oxide of FeO type on the surface of the wire by air-cooling the wire from the RSM facility for more than 900 ℃ for a short time. As such, when using the RSM facility, it is necessary to adjust the distance 3b between the RSM facility and the subsequent subsequent cooling zones in order to ensure time exposure to the atmosphere while maintaining productivity.

3 shows that the RSM facility is located between the cooling table 2b and the cooling table 2c, but the present invention is not limited thereto, and the RSM facility may be installed before the cooling table 2a. It may also be installed after the cooling stand 2d. Preferably, the RSM facility is installed before the cooling table 2a, the temperature of the wire rod leaving the RSM facility is 950 ° C or higher, and the air cooling time of the wire rod is 0.1 to 0.2 seconds.

According to the present invention, the hot rolled wire rod can be cooled while suppressing red scale generation on the surface of the hot rolled wire rod by setting working conditions and repositioning the process line. In addition, the present invention does not require a separate reheating process, unlike the prior art, it can be applied regardless of the cooling table installation conditions.

Claims (2)

In the method of cooling a hot rolled wire in which the wire rod rolled in the filament rolling machine of the hot rolling machine is located between the filament rolling machine and the winding device of the wire rod and cools the hot rolled wire on the line where at least one cooling stand is installed. A method of cooling hot rolled wire, wherein the temperature is maintained at 900 ° C. or higher and exposed to the atmosphere for 0.05 to 0.5 seconds before entering the first cooling zone, followed by the first cooling zone. According to claim 1, wherein the RSM facility is located before the cooling stand or in the middle of the plurality of cooling stand, the wire rod temperature at the exit of the RSM equipment is maintained at 900 ℃ or more and before entering the cooling stand located after the RSM equipment 0.05 ~ 0.5 Cooling of hot rolled wire, characterized in that it enters the subsequent cooling zone after exposure to the atmosphere for seconds.

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