GB2155588A - Corrosion resistant piston ring - Google Patents

Abstract

A piston ring (1) is provided with nitriding layer (2) at entire surfaces of the piston ring body (20) to form a compound layer (21) over a diffusion layer (22). The compound layer or both compound layer and diffusion layers is/are removed from an outer peripheral surface (11) of the piston ring body, and a plating or spraying layer (3) is formed on the exposed surface. <IMAGE>

Description

SPECIFICATION Piston ring The present inveniton relates to a piston ring for use in an internal combustion engine, and more particularly, to a type thereof capable of being employed in the internal combustion engine which uses high lead content fuel or which is exposed to corrosive atmosphere.

At present, while employment of non lead or lead free fuel has been progressing in light of the problem of public pollution, the em employment of an internal combustion engine which uses high lead content fuel is also available throughout the world. In the internal combustion engine employing high lead con tent fuel, in order to avoid excessive wear, thick chromium plating is provided onto an outer peripheral surface of the ring so as to sustain extensively corrosive atmosphere such as HCI atmosphere.

However, sufficient effect has not been ob tainable in light of productivity and cost.

On the other hand, a piston ring whose sliding portion is subjected to nitriding treat ment has been developed. However, excessive wear such as scuffing may occur in accor dance with specific operating condition of the engine. U.S. Patent 4,407,515, discloses a combined oil ring in which spacer expander and side rails are subjected to low tempera ture gas nitriding treatment. Further, co-pend ing U.S. Application S.N 571,630 discloses a piston ring having a ring body made of cast iron or steel having its entire surface provided with a soft-nitride layer, and outer peripheral surface provided with a spraying layer.

It is therefore, an object of the present invention to provide a piston ring which can obviate the above-described drawbacks of the conventional piston ring.

In the piston ring according to the present invention, a body is formed of steel or cast iron. Nitrided layer is formed over entire sur faces of the ring body. The nitriding layer includes a diffusion layer and a compound layer provided over the diffusion layer. At least the compound layer is removed from the nitriding layer at the outer peripheral portion of the piston ring body. Plating or spraying lawyer is formed over the exposed diffusion layer or exposed ring body surface.

According to a method of producing the piston ring of the present invention, entire surfaces of the piston ring body formed of steel or cast iron are provided with a nitriding layer to form an internal diffusion layer. Then, at least the compound layer is removed from the nitriding layer at an outer peripheral portion of the piston ring body. Thereafter, the exposed surface of the ring body or diffusion layer is subjected to spraying or plating treat ment.

Figure 1 is a cross-sectional view showing one embodiment of a piston ring according to the present invention; and Figure 2 is a cross-sectional view showing another embodiment of the present invention.

Typical embodiments of the present invention will be explained referring to accompanying drawings.

Fig. 1 shows a cross-section of one embodiment of a piston ring according to the present invention, wherein a nitriding layer 2 is formed all over the surfaces of a piston ring body 20. The body 20 is formed of cast iron or steel. The nitriding layer 2 includes a diffusion layer 22 and a compound layer 21 provided at the outer side of the diffusion layer. The compound layer 21 is formed over the diffusion layer 22. The compound layer 21 of the nitriding layer 2 is removed at the outer periphery 11 of the piston ring 1 by a polishing operation, etc. so as to expose the diffusion layer 22, since sufficient joining between the compound layer and plating or spraying material mentioned below may not be obtainable. Thereafter, a plating or spraying layer 3 is formed on the exposed diffusion layer 22.

Fig. 2 shows a cross-section of another embodiment, wherein a nitriding layer 2 including compound and diffusion layers is removed at an outer peripheral surface 11 and then a plating or a spraying layer 3 is formed on the exposed ring body at the outer peripheral surface.

In this case, plating material may be chromium or a dispersion of discrete particles within a plated matrix compatible with a material of a cylinder or cylinder liner, and the spraying material may be ferrous material or molybdenum.

As described above, according to one embodiment of the present invention, after a compound layer is removed from the outer periphery of the piston ring, plating or spraying layer is formed on a diffusion layer, so that abnormal abrasion such as scuffing caused by sliding movement between the compound layer and a cylinder can be prevented.

According to another embodiment, after not only a compound layer but also a diffusion layer are removed from the outer periphery of the piston ring, a plating or a spraying layer is formed on an exposed base metal of the piston ring body, so that wear resistivity of the sliding surface of the piston ring can be improved when compared with a case where the diffusion layer having a thin hard layer is exposed to the cylinder.

Further, in both cases, the nitriding layers can prevent the planner side surfaces of the piston ring from being abraded due to the impact wear caused by the repeated impacts between the ring and the ring groove. Moreover, wear resistivity at the sliding surface can be improved because of synergetic effect brought by the employment of the nitriding layer and the plating or the spraying layer.

Claims (11)

1. A piston ring comprising; a piston ring body formed of steel or cast iron; a nitriding layer formed over said ring body surfaces, said nitriding layer including a diffusion layer and a compound layer provided over said diffusion layer; at least said compound layer being removed at the outer peripheral portion of said piston ring body; and a plating or spraying layer formed on the outer peripheral surface of said piston ring body.

2. A piston ring according to Claim 1, wherein said outer peripheral portion of said piston ring body is provided with diffusion layer only, and said plating or spraying layer is formed on said diffusion layer.

3. A piston ring according to Claim 1, wherein said plating or spraying layer is formed directly on said outer peripheral surface of said ring body.

4. A piston ring according to any one of the preceding claims, wherein said plating is formed of chromium.

5. A piston ring according to any one of Claims 1 to 3, wherein said plating is formed of a dispersion of discrete particles within a plated matrix.

6. A piston ring according to any one of the preceding claims, wherein said spraying layer is formed of ferrous material.

7. A piston ring according to any one of Claims 1 to 5, wherein said spraying layer is formed of molybdenum.

8. A method of producing a piston ring comprising: the steps of preparing a piston ring body formed of steel or cast iron; forming a nitriding layer over entire surfaces of said ring body to form an internal diffusion layer and a compound layer; removing at least said compound layer from said nitriding layer on an outer peripheral portion of said ring body; and forming a plating or spraying layer on the exposed outer peripheral surface of said ring body.

9. A method according to Claim 8, wherein both said compound and diffusion layer are removed from said nitriding layer on the outer peripheral surface of said ring body.

10. A piston ring substantially as herein before described with reference to Fig. 1 or Fig. 2 of the accompanying drawings.

11. A method of producing a piston ring substantially as hereinbefore described with reference to Fig. 1 or Fig. 2 of the accom panying drawings.