JPH112323A - Piston ring - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a piston ring enduring sufficiently a service life of an internal combustion engine, having an excellent wear/seizure resisting characteristic, and reducing a cost. SOLUTION: In a piston ring, a piston ring main unit is constituted by an Fe-Cr-Co system alloy, in a peripheral surface of the piston ring main unit, a nitride layer is formed, in a peripheral surface formed with the nitride layer, a chrome nitride coating of 5 to 25 μm is formed. The Fe-Cr-Co system alloy is constituted preferable by 3 to 10 wt.% Co, 13 to 20 wt.% Cr, and the rest of Fe.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to a piston ring. More specifically, the present invention relates to a piston ring for an internal combustion engine having improved seizure resistance and wear resistance.

[0002]

2. Description of the Related Art Piston rings used in reciprocating internal combustion engines are required to have high wear resistance. Therefore, for the purpose of imparting wear resistance to the piston ring,
BACKGROUND ART A piston ring having a hard chromium plating layer formed on a sliding surface has been frequently used as a piston ring for an internal combustion engine. However, in recent years, there has been a trend toward higher speeds and higher output of internal combustion engines, and the use conditions of piston rings have become increasingly severe.A piston ring having a conventional chromium plating layer has abrasion resistance characteristics. In some cases, a piston ring having better wear resistance properties has been desired. In order to solve this problem, a technique to form a nitride layer on the surface of the piston ring body or to coat metal nitride by ion plating in order to improve the wear resistance of the sliding surface of the conventional piston ring Has been proposed. Nitride layers and metal nitride coatings have superior wear resistance compared to hard chrome plated layers, and have superior wear resistance compared to conventional piston rings with chrome plated layers. Be expected.

[0003]

However, due to its hardness, the nitrided layer is superior in abrasion resistance as shown by a one-dot chain line to the chromium plating layer shown by a two-dot chain line in FIG. There is a defect that is inferior to the plating layer,
Further, there remains a problem that the nitrided layer is worn out before the expiration of the service period of the internal combustion engine. On the other hand, the coating with nitride is higher in height and superior in wear resistance as shown by the broken line than the nitrided layer shown by the one-dot chain line, but lacks adhesion and flexibility with the piston ring, so that the metal base metal There is a problem that it is easily peeled off from In order to solve this problem, it is conceivable to form a nitride layer on the piston ring main body in advance and then coat the piston ring with a nitride (Japanese Patent Publication No. 6-10454). However, since the nitrided layer has inferior seizure resistance, the nitrided coating is formed to a thickness enough to withstand the service life of the internal combustion engine, for example, about 50 μm or more, so that the nitride is not worn away and the nitrided layer is not exposed. There is a need. However, the formation of a coating film of a metal nitride by the above-described ion plating requires a long time to form a coating film having a sufficient thickness because the formation speed of the coating film is slow. Due to the lengthening of the process, there was a problem that the unit price of the piston ring was significantly increased. An object of the present invention is to provide an inexpensive piston rig that sufficiently withstands the service life of an internal combustion engine, has excellent wear resistance and seizure resistance, and is inexpensive.

[0004]

The invention according to claim 1 is
A piston ring main body is formed of an Fe-Cr-Co alloy, a nitride layer is formed on the outer peripheral surface of the piston ring main body, and a chromium nitride coating is formed on the outer peripheral surface on which the nitride layer is formed.
This is a piston ring having a thickness of 25 μm. The invention according to claim 2 is the invention according to claim 1, wherein Fe-Cr is used.
-Co-based alloy contains 3 to 10% by weight of Co and 13 to 2% of Cr.
0% by weight of the piston ring is made of Fe.

[0005] By forming a nitrided layer on the piston ring main body made of an alloy to which cobalt is added, the surface of the piston ring main body is hardened and the seizure resistance of the piston ring main body itself is improved. The wear resistance of the piston ring is improved by forming a chromium nitride film on the outer peripheral surface of the piston ring body, and the unit price of the piston ring is increased by forming the chromium nitride film to a relatively thin 5 to 25 μm. To prevent. If the thickness of the chromium nitride coating is less than 5 μm, sufficient wear resistance cannot be obtained, and if the thickness of the chromium nitride coating exceeds 25 μm, the unit cost of the piston ring itself is increased.

[0006]

Embodiments of the present invention will now be described in detail with reference to the drawings. The piston ring of the present invention is a top ring used for a piston of an engine for an internal combustion engine, and a piston ring main body is made of an Fe-Cr-Co alloy. Specifically, the Fe-Cr-Co-based alloy is an alloy in which Co is 3 to 10% by weight and Cr is 13 to 20% by weight, with the balance being Fe, in which cobalt is added to so-called stainless steel. A nitride layer is formed on the outer peripheral surface of the piston ring body made of the alloy to which cobalt is added. The formation of the nitrided layer is performed by a gas nitriding method, and is performed at 570 ° C. with the piston ring main body inserted in the layer.
The nitriding treatment is performed in a state where the heating is performed before and after. This nitridation process forms a nitrided layer on the surface of the piston ring main body, increases the surface strength of the surface of the piston ring main body, and adds anti-seizure of the piston ring main body itself by adding cobalt to the alloy constituting the piston ring main body. Improve characteristics.

Further, a chromium nitride film is further formed on the outer peripheral surface of the piston ring body on which the nitride layer is formed with a thickness of 5 to 25 μm. The chromium nitride coating is formed by an ion plating method. This ion plating method is a kind of PVD method (physical vapor deposition method), and particularly adopts a reactive ion plating method that can form chromium nitride on the outer peripheral surface of the piston ring body by reacting chromium vapor with nitrogen. Is preferred. Chromium vapor is obtained by irradiating a chromium target with a high-energy beam such as an electron beam to evaporate chromium.Chromium is an element that easily forms nitrides. When plasma is generated by
The chromium ionizes and combines with the respective nitrogen ions to form chromium nitride. Here, chromium nitride is formed as CrN when the supply amount of nitrogen gas is large, and as Cr ₂ N when the supply amount of nitrogen gas is small, depending on the supply amount of the nitrogen gas.

In the piston ring constructed as described above, the chromium nitride film formed on the surface of the piston ring main body serves as a sliding surface, and the chromium nitride film is initially worn in proportion to the traveling distance of the vehicle. . However, although the chromium nitride coating has excellent wear resistance, its thickness is 5 to 25 μm.
Therefore, as shown by the solid line in FIG. When the chromium nitride film is worn, the nitride layer formed below the chromium nitride film then serves as a sliding surface.

That is, when the use limit of the piston ring in terms of the amount of wear of the piston ring is shown by a broken line in FIG. At points C and C, the usage limit of the amount of wear of the piston ring is reached. However, in the piston ring of the present invention, up to point A, the chromium nitride coating formed on the surface of the piston ring main body serves as a sliding surface, and the chromium nitride coating wears in proportion to the traveling distance of the vehicle, Further, from the point A in the figure where the chromium nitride coating has been worn away, the nitride layer then serves as a sliding surface for the piston ring, and the nitride layer then wears in proportion to the mileage of the vehicle. As a result, the traveling distance in the usage limit can be further extended to point D.

Although the nitrided layer is inferior in wear resistance to the chromium nitride coating, A in FIG.
Between point D and point D, it has a sufficient layer thickness to exert the function of the piston ring, and has sufficient abrasion resistance compared to the case where only the nitride layer is formed on the piston ring body from the beginning. Has characteristics. Here, since cobalt is added to the alloy constituting the piston ring main body, the alloy has excellent seizure resistance and exhibits its function sufficiently for the remaining period up to the use limit.

If the chromium nitride coating is formed to a sufficient thickness, for example, about 50 μm, as shown by the broken line in the figure,
Although the mileage to reach the service limit of the piston ring will be further extended, the life of the internal combustion engine itself will be incurred before its coating wears out. In addition, forming the chromium nitride coating to a sufficient thickness significantly lowers the cost of the piston ring due to the prolonged production process due to the slow generation rate of the coating film.

Therefore, according to the present invention, the wear resistance and the seizure resistance are secured by the chromium nitride film and the nitride layer formed under the chromium nitride film, so that the total operating time up to the service limit of the internal combustion engine is obtained. By forming the chromium nitride coating to a relatively thin thickness of 5 to 25 .mu.m, an inexpensive piston ring having sufficient durability for the internal combustion engine and excellent wear and seizure resistance can be obtained.

[0013]

Next, examples of the present invention will be described together with comparative examples. <Example 1> A piston ring according to the present invention for a direct injection type turbo interkura diesel engine was prepared. That is, a nitride layer is formed on the outer peripheral surface of a piston ring body made of a Fe-Cr-Co-based alloy in which Co is 3 to 10% by weight and Cr is 13 to 20% by weight with the balance being Fe.
Then, a chromium nitride coating was further formed on the outer peripheral surface of the piston ring body on which the nitride layer was formed. The chromium nitride film was formed as CrN by an ion plating method, and a piston ring in which the chromium nitride film was formed in a thickness of 25 μm was used in Example 1. <Embodiment 2> A nitride layer is formed on the outer peripheral surface of a piston ring main body of the same material and the same size as the piston ring of the first embodiment.
A chromium nitride film was further formed on the outer peripheral surface of the piston ring body having a thickness of 0 to 100 μm and a nitride layer formed thereon. The chromium nitride coating is formed by ion plating.
A piston ring formed as rN and having a chromium nitride film formed thereon in a thickness of 5 μm was used as Example 2.

<Comparative Example 1> A piston ring for a direct injection type turbo intercra diesel engine was prepared. 13-20% by weight of Cr Fe-
A piston ring body was manufactured from a Cr-based stainless steel alloy, and a chromium nitride film was formed on the outer peripheral surface of the piston ring body without forming a nitride layer. The chromium nitride film is formed by ion plating
A piston ring formed as N and having a chromium nitride coating formed thereon in a thickness of 50 μm was used as Comparative Example 1. <Comparative Example 2> A chromium nitride coating was formed on the outer peripheral surface of a piston ring body of the same shape and size as the piston ring of Comparative Example 1 without forming a nitride layer. The chromium nitride film was formed as CrN by an ion plating method, and a piston ring in which the chromium nitride film was formed in a thickness of 25 μm was used as Comparative Example 2.

Comparative Example 3 A nitride layer was formed on the outer peripheral surface of a piston ring body of the same shape and size as the piston ring of Example 1 and having the same material. That is, 3 to 10% by weight of Co and C
r is 13 to 20% by weight Fe-Cr- with the balance being Fe
Comparative Example 3 was a piston ring in which a nitride layer was formed on the outer peripheral surface of a piston ring body made of a Co-based alloy in a thickness of 50 to 100 μm and a chromium nitride film was not formed. <Comparative Example 4> A piston ring having the same material and the same shape and the same size as the piston ring of Comparative Example 1 and having a chrome plating layer formed on the outer peripheral surface of 200 to 300 µm was used as Comparative Example 4.

<Comparative Test> The direct injection type turbo intercra diesel engine was applied to the first and second embodiments, respectively.
Equipped with the piston rings of Example 2 and Comparative Examples 1 to 4,
The operation was performed at the rated rotation speed for 8000 hours. After the operation was completed, each piston ring was taken out, the amount of wear on the outer peripheral surface of the piston ring was measured by a profile meter, and the presence or absence of seizure on the outer peripheral surface and the condition were visually inspected. Table 1 shows the results.

[0017]

[Table 1]

<Evaluation> As is clear from Table 1, in Comparative Example 1, although no seizure occurred, there was a problem that the unit price of the piston ring itself was increased because the chromium nitride film was formed relatively thick. Further, in Comparative Example 2, the chromium nitride film was worn out and seizure occurred.
It can be seen that when the chromium nitride coating is 25 μm, it does not exhibit sufficient wear resistance. Furthermore, since there is no seizure in Comparative Example 3, if the piston ring main body is made of an alloy obtained by adding cobalt to stainless steel by comparison with the result of Comparative Example 2, the seizure resistance of the piston ring main body itself may be improved. I understand. In addition, in the comparative example 4 having the chromium plating film, which is a conventional product, it can be seen that the amount of wear is significantly larger than that of other piston rings.

On the other hand, in Examples 1 and 2 in which a nitride layer was formed on stainless steel to which cobalt was added and a chromium nitride film was formed thinly, no seizure occurred even if the chromium nitride film was worn. It has sufficient abrasion resistance and seizure resistance. The reason why the wear amount of the second embodiment is larger than that of the first embodiment is considered to be that the chromium nitride coating of the second embodiment was worn earlier than the chromium nitride coating of the first embodiment.

[0020]

As described above, according to the present invention, F
The piston ring body is composed of an e-Cr-Co alloy or an Fe-Cr-Ni-Co alloy, and a nitride layer is formed on the outer peripheral surface of the piston ring body, thereby improving the seizure resistance of the piston ring body itself. Can be done. Further, since the chromium nitride coating is further formed on the outer peripheral surface on which the nitrided layer is formed in a thickness of 5 to 25 μm, the wear resistance of the piston ring can be further improved without increasing the unit price of the piston ring itself. As a result, according to the present invention, the chromium nitride layer and the nitride layer formed below the chromium nitride layer ensure the wear resistance and the seizure resistance, sufficiently withstand the service life of the internal combustion engine, and have excellent durability. An inexpensive piston ring having wear characteristics and seizure resistance can be obtained.

[Brief description of the drawings]

FIG. 1 is a diagram showing a relationship between a running distance and a wear amount of a piston ring.

Claims (2)

[Claims] A piston ring main body is made of an Fe—Cr—Co alloy, a nitride layer is formed on an outer peripheral surface of the piston ring main body, and a chromium nitride film is formed on the outer peripheral surface on which the nitride layer is formed. A piston ring formed to have a thickness of about 25 μm. 2. The Fe—Cr—Co alloy contains Co in an amount of 3 to 1.
2. The piston ring according to claim 1, wherein 0% by weight and 13 to 20% by weight of Cr are Fe.