KR102192892B1 - heat treatment and Surface propagation method of Metalwork - Google Patents

Abstract

The present invention provides a method for surface heat treatment of a rotor made of ductile cast iron and carbon steel, which is capable of prolonging the life of the rotor by obtaining necessary strength and reinforcement while preventing the occurrence of cracks and deformation in the rotor made of ductile cast iron and carbon steel. About. In the present invention, the first step of polishing the surface of a rotor of ductile cast iron and carbon steel, heat treatment with high frequency only for a local area where abrasion occurs on the surface of the polished ductile cast iron and carbon steel rotor, followed by rapid cooling. The second step and a third step of heating the rotor of the ductile cast iron and carbon steel at 650 to 950°C for 6 to 10 seconds to rapidly cool the rotor of the ductile cast iron and carbon steel at 230 to 240°C. It provides a method for surface heat treatment of a rotor made of ductile cast iron and carbon steel including a fourth step of tempering at °C for 2 to 4 hours.

Description

Heat treatment and surface propagation method of metalwork

The present invention relates to a method of making a product to be used after reprocessing by reinforcing the surface of a metal workpiece without thermal deformation between axes when the surface is proliferated by surface heat treatment and welding of a rotor and impeller without deformation, and by proliferating a wear part during use without thermal deformation. Ductile cast iron body and carbon steel material that prevents the problem of cracking and deformation of the rotor and impeller made of cast iron and carbon steel, and extends the life of the rotor by gaining necessary strength and reinforcement, and gains economic efficiency through reuse. It relates to a method for reuse after surface proliferation by non-deformation surface heat treatment and non-deformation metal welding of rotor and impeller of

Pump. Rotors, which are elements that rotate in rotating machines such as generators, motors, turbines, and waterwheels, require surface heat treatment to improve strength and extend life. However, in the case of a rotor made of ductile cast iron and carbon steel, it is common to crack and deform when heat-treated.

Ductile cast iron, also known as nodular cast iron or nodular cast iron, is made by adding silicon or magnesium to cast iron to make oxygen into a spherical graphite structure to increase ductility and strength.It has good heat resistance and corrosion resistance. It is widely used in cast iron machine parts that require strength. In the present invention, it is possible to obtain the strength and reinforcement required for the allowable value while preventing cracking and deformation occurring during heat treatment of the rotor of such ductile cast iron and carbon steel.

In general, when the rotor is heated at 200°C, there is no change in the workability according to the increase in hardness, but when the rotor is heated at 400°C, the workability is significantly deteriorated. In addition, ductile cast iron and carbon steel materials having not only workability but also thermal deformation are materials that are difficult to obtain reinforcement only by heat treatment.

In addition, when the surface treatment is applied to the surface treatment using an oil-based coating, metal deposition and plating method, the coating peels off, and the deposition cannot create a thick film layer. Plating is less economical due to an increase in thickness, so it does not meet expectations in extending the service life. Therefore, if the surface is reinforced by heat treatment at the manufacturing stage, the quality will be improved.

Patent Document 1 of the following prior art documents is a heat treatment method capable of improving strength and elongation by heat treating high-strength spheroidal graphite cast iron for a short period of time, and maintaining high-strength spheroidal graphite cast iron at a temperature of 870 to 890°C for 30 to 60 minutes. After making it austenite, a process of forced air cooling is started.

In addition, Patent Document 2 discloses a heat treatment method of a ductile graphite cast iron workroll having a stabilized structure by repeating the holding step and the quenching step for a certain time after heating to a set temperature several times.

Korean Patent Publication No. 10-1998-085544 (published on May 12, 1998) Korean Patent Publication No. 10-2014-0041037 (published on April 4, 2014)

The conventional heat treatment method for ductile cast iron (spherical graphite cast iron) products has a limitation in preventing the occurrence of cracks and deformation, so it is difficult to obtain the strength and reinforcement required for the allowable value.

The present invention is to solve such a conventional problem, ductile cast iron capable of prolonging the life of a rotor by obtaining necessary strength and reinforcement while preventing the occurrence of cracks and deformations without deformation of a product that has been processed as required. And a method for surface heat treatment of a carbon steel rotor.

The present invention for achieving the above object is a first step of grinding the rotor and impeller of ductile cast iron and carbon steel after completion of processing, and abrasion on the surface of the rotor or impeller of the ductile cast iron and carbon steel that has been polished. A second step of quenching after heat treatment at high frequency only for a local area; a third step of quenching by heating the rotor of the ductile cast iron and carbon steel at 650 to 950°C for 2 to 30 seconds; and It is characterized by tempering the rotor of ductile cast iron and carbon steel at 230 to 240°C for 2 to 4 hours.

In addition, if there is a worn part on the surface of the ductile cast iron and carbon steel rotor, the worn part is preheated to a temperature of 180 to 320°C, and the wear is performed using the rotor or impeller and welding rod of the ductile cast iron and carbon steel. After electro-welding the worn part at a temperature of 1000° C. or higher, the process of processing the welded part so that the worn part becomes the same value as the new product is further performed.

The present invention constituted as above can prevent the occurrence of rotor deformation and obtain necessary strength and reinforcement because heat treatment is performed at high frequency only for a local area where wear occurs on the surface of the rotor of ductile cast iron and carbon steel. It has the effect of extending the life of the rotor.

1 is a process chart showing an embodiment of a heat treatment method according to the present invention.
2 is a photograph showing a rotor of ductile cast iron and carbon steel immediately after heat treatment according to the present invention.
3 is a photograph showing a rotor of ductile cast iron and carbon steel after tempering in the process of the present invention.
4 is a photograph showing a rotor of ductile cast iron and carbon steel after removing foreign substances from the surface during the process of the present invention.
5 is a photograph showing a worn rotor and a rotor of ductile cast iron and carbon steel welded and polished according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the following embodiments are provided so that the present invention may be sufficiently understood by those of ordinary skill in the art, and may be modified in various other forms, and the scope of the present invention is limited to the embodiments described below. It is not.

1 is a process chart showing an embodiment of the heat treatment method according to the present invention.Refer to FIG. 1 for a heat treatment method capable of obtaining required strength and reinforcement while preventing cracking and deformation of the rotor of ductile cast iron and carbon steel. Explained as follows.

First, as a first step, the rotors of ductile cast iron and carbon steel are polished for precision after processing (S1). At this time, the ductile cast iron and carbon steel rotors are parts that rotate at high speed.

The reason for heat treatment and balance is that when heat treatment is applied to a surface of an inhomogeneous shape, cracks are generated, so that a homogeneous product shape cannot be realized.

As a second step, heat treatment is performed with high frequency only for a local area where abrasion occurs on the surface of the rotor of the ductile cast iron and carbon steel polished as described above, followed by rapid cooling (S2). In the high-frequency heat treatment, since the heating time is short, the heat effect on the surface of the rotor is small and there is a low risk of deformation.

Other features of high frequency heat treatment include less occurrence of oxidized scale, no decarburization due to long-time heating, easy local heat treatment for only necessary parts, easy adjustment of the hardening depth, and surface hardening. In the case of, the internal toughness can be maintained, and it is easy to apply to all heat treatments such as surface hardening/ annealing/ tempering/ soaking.

In this way, when only the surface of the ductile cast iron and carbon steel rotor is subjected to abrasion due to rotational operation, only the surface is heat-treated and then rapidly cooled, the deformation at the center of the rotor does not occur. In addition, as only the surface of the rotor is heat treated, it does not cause deformation to the product and increases the required surface hardness, thereby extending the life of the product.

If deformation occurs after heat treatment, heat treatment cannot be performed after pre-processing, but if heat treatment can be performed after complete machining, it is an unhardened metal, so it is easy to process because it has excellent workability, and necessary parts can be strengthened through heat treatment.

Next, as a third step, the rotor of the ductile cast iron and carbon steel is heated at 650 to 950°C for 2 to 30 seconds for the surface and the lower surface to be rapidly cooled (S3). At this time, it is desirable to uniformly heat the upper and lower portions of the rotor using gas as a heat source.

In addition, the surface hardness of the rotor is increased by rapidly cooling the surface of the rotor with cooling water. On the other hand, if heated to a temperature higher than 950°C, cracks are generated on the surface of the rotor, and if heated to a temperature lower than 650°C, the heat treatment effect decreases, which varies depending on the material situation.

In addition, if the rotor is heated for an excessive amount of time, the material is deformed, so it is preferable to heat for 2 to 30 seconds depending on the Ø and length of the material. 2 is a photograph showing a rotor of ductile cast iron and carbon steel immediately after heat treatment at 840°C.

In the fourth step, the ductile cast iron and carbon steel rotors are tempered at 230 to 240°C for 2 to 4 hours (S4). In the fourth step, as in the third step, the rapidly heated metal has rigidity, which is a process for releasing such rigidity.

In an embodiment of the present invention, tempering is performed for 3 hours at 235°C using an electric furnace, and FIG. 3 shows a rotor of ductile cast iron and carbon steel after such tempering.

As a result of measuring the HRC hardness of the rotor of the ductile cast iron and carbon steel of the present invention subjected to heat treatment according to the above-described process, it was found that the hardness increased from HRC of 14-15 to HRC of 34-35.

On the other hand, the following processes can be further performed for rotors made of ductile cast iron and carbon steel, which are not new products, but are recycled products. Rotors made of ductile cast iron and carbon steel, which are regenerated products, have a long history of use, so there are worn parts on the surface.

Conventionally, a worn part was regenerated through a plating method, which is a method that can be adopted only under a wear degree of 30 microns or less.

In the present invention, when the abrasion degree is 30 microns or more, repair and reuse of a rotor having a wear degree of any dimension is possible through a polishing process after welding a worn area. What is important here is a method of adding other metals to the metal surface through electrical welding that applies heat first, so that high heat is applied to the material to minimize heat degeneration when the metal is applied by heat to prevent the occurrence of strain.

First, preheat the worn area to a temperature of 180-320℃. As the temperature of the rotor or impeller material is increased through the basic preheating, it is possible to exclude deformation of the rotor or impeller. Even if a temperature of 1000℃ or more is applied to the worn rotor or impeller only on the surface, regeneration treatment can be performed without deformation.

Subsequently, the abraded portion is electrically welded to the material of ductile cast iron and carbon steel at a temperature of 1000°C or higher using a rotor or impeller and a welding rod. If the hardness of the rotor is measured after welding in this way, the hardness increases by 400-500% compared to the surface hardness of the existing material, and the result is reinforced to more than 60-80 in HRC 14-15.

Then, the surface is polished by polishing the welded area. Figure 5 shows a worn rotor and a rotor welded and polished according to the present invention. In this way, if the same material as the rotor is heated and then welded to the surface of the rotor, the surface of the rotor is covered with the same material, so that it has superior adhesion than any coating and can be processed to a desired thickness with a significantly increased surface strength. .

In the above, the present invention has been described based on the preferred embodiment, but the present invention is not limited to the above embodiment, and various modifications by those of ordinary skill in the art within the scope of the technical idea of the present invention This is possible.

Claims (2)

A first step of grinding the ductile cast iron and carbon steel after the rotor or impeller is finished;
A second step of heat-treating at high frequency only for a local area where abrasion occurs on the surface of the rotor or impeller of the polished ductile cast iron and carbon steel, followed by rapid cooling;
A third step of rapidly cooling the rotor or impeller of the ductile cast iron and carbon steel by heating at 650 to 950°C for 2 to 30 seconds on the surface and the lower surface;
A fourth step of tempering the ductile cast iron and carbon steel rotor or impeller at 230 to 240°C for 2 to 4 hours,
If there is a worn part on the surface of the rotor or impeller of the ductile cast iron and carbon steel,
Preheat the worn area to a temperature of 180 to 320°C,
Electric welding the worn part at a temperature of 1000°C or higher using the ductile cast iron and carbon steel rotor or impeller and welding rod,
Heat treatment and surface growth method of a metal workpiece, characterized in that further performing a process of processing the welded portion so that the worn portion becomes the same value as the new article.
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