JPH0673699B2 - Guide shoe for pipe making - Google Patents

Description

TECHNICAL FIELD The present invention relates to an improvement in a guide shoe for pipe manufacturing.

(Prior Art and Its Problems) Conventionally, since guide shoes used for manufacturing seamless steel pipes are generally used without lubrication at high temperatures, the surface in contact with the pipe material is particularly It is required to have a high degree of wear resistance and seizure resistance, and toughness of the main body.

For this reason, conventionally, a guide shoe main body is made of cast steel, and a hard alloy such as stellite is welded to its contact surface by overlay welding, but this is very related to wear resistance and seizure resistance. Not enough effect is obtained, and the guide shoe is expensive as a whole.

Also, an attempt is made to form a cermet layer composed of ceramics and a metal serving as a binder for binding the ceramics, so-called binder metal, on the surface of the guide shoe to impart wear resistance and seizure resistance to the guide shoe. Although it is also done, even with a guide shoe having such a cermet layer on the surface, when the Cr-containing steel material, for example, 13Cr stainless steel material is manufactured, seizure occurs in the guide shoe, resulting in product quality. May have deteriorated.

(Solution) In view of the circumstances as described above, the present inventors have proposed a guide shoe having a surface that comes into contact with a pipe-making material made of various materials for a Cr-containing steel material without lubrication. As a result of rigorously performing a basic seizure test for (workpiece), when the surface layer of the guide shoe contains Cr carbide, the fact that the Cr carbide and the work material remarkably fuse with each other causes seizure to occur. I found it.

Then, the present invention has been completed based on such findings, and is characterized in that at least the surface layer portion of the portion in contact with the tube material made of Cr-containing steel, ceramics other than Cr carbide and Cr It is a guide shoe for pipe manufacturing that consists of a cermet layer that does not substantially contain Cr carbide, which is made of a heat-resistant metal that does not substantially generate carbide, which results in excellent wear resistance. It was possible to effectively realize the improvement of the seizure resistance as well as the heat resistance.

Incidentally, the cermet layer in the pipe manufacturing guide shoe according to the present invention, preferably, on the surface of the guide shoe base material, a ceramic other than Cr carbide and a heat resistant metal that does not substantially generate Cr carbide Mixed powder,
It is formed by overlay welding to a predetermined thickness by plasma powder welding.

In addition, the pipe-forming guide shoe according to the present invention can be suitably used particularly for preventing seizure of a Cr-containing steel pipe material in the case of no lubrication.

(Specific Structure / Operation) By the way, in the pipe manufacturing guide shoe according to the present invention, it is also possible that the entire structure thereof is made of a cermet material that does not substantially contain Cr carbide. In general, a structure in which such a cermet layer is provided in a predetermined thickness on a predetermined surface portion of the guide shoe base material (main body) is preferably adopted. As the material of the guide shoe base material, a metal such as carbon steel, low alloy steel, stainless steel, heat resistant steel, or superalloy such as Ni base or Co base is appropriately used. However, as the base metal,
Since it is a guide shoe, one having high toughness is generally preferable, and SCH13, for example, can be mentioned, but if it does not need to be so high in performance, less expensive cast steel can be used.

Further, as the ceramics used for forming the cermet layer according to the present invention, hard ceramics such as carbides of various kinds other than carbides of Cr, nitrides, borides, silicides, oxides, etc. are appropriately selected. Becomes And preferably, NbC, TiN, TiC, WC, VC, ZrO ₂ , Al ₂ O ₃ , Y ₂ O ₃ ,
One kind or two or more kinds of ceramics such as Al ₂ O ₃ .MgO can be used in an appropriate combination.

Further, as the binder metal that constitutes the cermet layer together with the ceramics, any tool steel, heat resistant steel, Co-based alloy, Ni-based alloy, etc. can be used as long as it has heat resistance that matches the purpose of use. However, it is necessary to avoid using a metal containing Cr and C as alloying components which generate Cr carbide. However, like Hastelloy C, Cr
Where the content of C is extremely small, even if it contains 0.08% by weight, it does not generate Cr carbide that substantially affects the seizability. Therefore, even such a metal material can be used as a binder metal.

The ceramic and the heat-resistant binder metal as described above are preferably used in a mixing ratio of 50:50 to 95: 5 (volume) to form an integral cermet on the surface of the target base metal. Is formed. If the ceramic material does not reach 50% by volume, the wear resistance is insufficient, and if it exceeds 95% by volume, the cermet layer itself lacks in toughness and causes problems such as peeling. Will be done.

Further, in forming an integral cermet layer composed of such ceramics and a heat-resistant binder metal, a known method will be appropriately adopted, but preferably, a plasma powder welding method is advantageously adopted. The Rukoto. In this plasma powder welding, a mixed powder composed of the ceramic powder and the binder metal powder is placed on a predetermined inert carrier gas, supplied to a plasma arc device, and, as is well known, they are mixed. It is carried out by melting the powder with an arc and performing overlay welding on a predetermined portion of the surface of a predetermined guide shoe base material (main body) at a thickness of about 2 to 10 mm.

And, a guide shoe for pipe manufacturing having a cermet layer substantially free of Cr carbide, which is obtained in this way and is composed of a ceramic other than Cr carbide and a heat-resistant binder metal that does not substantially generate Cr carbide. In that case, even if the cermet layer is brought into contact with the Cr-containing steel pipe material to be processed, at such a contact site,
Since there is no fusion of Cr-containing steel pipe material due to the absence of Cr carbide, seizure between the guide shoe and the pipe material (workpiece) is effectively suppressed as a whole. Since the cermet layer has good wear resistance, the life of the guide shoe can be effectively improved.

As the Cr-containing steel pipe material processed by the guide shoe according to the present invention, all the Cr-containing steel materials are targeted, but in general, the pipe manufacturing work with a Cr content of about 1% or more. In particular, it will be advantageously used for pipe manufacturing of a stainless steel pipe material which is typical as a Cr-containing steel.

(Examples) Some examples of the present invention will be shown below to clarify the present invention more specifically, but the present invention is subject to any restrictions by the description of such examples. Not to mention that.

Further, in addition to the following specific examples, in addition to the following embodiments, the present invention includes various changes and modifications based on the knowledge of those skilled in the art without departing from the spirit of the present invention.
It should be understood that improvements and the like can be added.

First, using SCH13 as a guide shoe base material, a disc-shaped test piece was prepared. Then, the following first
Powder mixture of ceramics and heat-resistant metal of various compositions shown in the table (particle size: 100 ~ 350 mesh), using argon gas as a carrier gas, welded by a known plasma powder welding method, the thickness is about A 5 mm cermet layer was formed. For comparison, similar test pieces made of various materials without such a cermet layer were prepared.

Then, the test disc thus obtained was put into an Ogoshi-type high temperature wear tester to examine the seizure state. The mating material was SUS403 (13Cr stainless steel), which was heated and held at 900 ° C by direct energization. In addition, the sliding contact condition of each test disk is: load: 3 kg, speed: 2.5 m / sec, distance: 500 m,
Met.

The results of such a seizure test are also shown in Table 1 below. As is clear from the results, ceramics other than Cr carbides and heat-resistant metals that do not substantially generate Cr carbides are used according to the present invention. In the test disc (No. 11 to 13) having a cermet layer containing substantially no Cr carbide, no fusion or seizure was observed, whereas the presence of Cr carbide In No. 1 to 4 and No. 8 to 10 test discs, marked fusion and seizure phenomena were observed with the mating material (SUS403). It should be noted that in the test disks of Hastelloy C, Mo and W of Nos. 5 to 7, almost no fusion or seizure was observed, but the wear resistance was extremely poor and the life was shortened. It was recognized that it was not enough.

Separately, in the same manner, a guide shoe for rolling a seamless steel pipe was manufactured using the materials of Nos. 1, 2, 9, 12 and 13 described above. Then, an actual machine test was carried out using each of the various kinds of guide shoes thus obtained, and the seizure condition until the end of each life was examined, and the results are shown in Table 2 below.

The life index in Table 2 is shown as a numerical value for relative comparison with reference to one of the standard test products of the guide shoes.

As is clear from the results in Table 2, even in the actual machine test, the guide shoe provided with the cermet layer substantially free of Cr carbide according to the present invention exhibits extremely long-term durability. It is recognized that the life index is extremely high.

(Effect of the invention) As is apparent from the above description, in the pipe manufacturing guide shoe according to the present invention, at least the surface layer portion of the portion in contact with the Cr-containing steel pipe material to be piped is a ceramic other than Cr carbide. And consisting of a heat-resistant metal that does not substantially generate Cr carbide, from being composed of a cermet layer that does not substantially contain Cr carbide, its wear resistance can be significantly increased, While long life has been achieved advantageously, its seizure resistance is also significantly improved.
This effectively suppressed the deterioration of product quality due to the occurrence of scratches and the like.

The long life of the guide shoes and the high product yield combine with the present invention, and the present invention significantly contributes to the reduction of the manufacturing cost of the Cr-containing steel pipe.

Claims (2)

[Claims] 1. A ceramic material other than Cr carbide and Cr except for at least the surface layer portion of the portion in contact with the pipe material made of Cr-containing steel.
A guide shoe for pipe manufacturing, comprising a cermet layer that is substantially free of Cr carbide and is made of a heat-resistant metal that does not substantially generate carbide. 2. The cermet layer comprises, on the surface of the guide shoe base material, a mixed powder of a ceramic other than Cr carbide and a heat-resistant metal that does not substantially generate Cr carbide,
The pipe guide shoe according to claim 1, wherein the guide shoe is formed by overlay welding to a predetermined thickness by plasma powder welding.