JPS58108299A - Aluminum alloy bearing - Google Patents

Abstract

PURPOSE:To obtain titled bearing with markedly improved baking resistance in the initial conforming stage, by forming a lubricating film containing a solid lubricant on the surface of a bearing made by a pressure welding of an aluminum alloy on a back steal plate. CONSTITUTION:The objective bearing can be obtained by forming a lubricating film which consists of pref. a synthetic resin as a base material and a solid lubricant containing at least on selected from molybdenum disulfide, graphite, boron nitride, tungsten disulfide. and polytetrafluoroethylene resin on the surface of a bearing made by a pressure welding of an aluminum alloy on a back steel plate.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an aluminum alloy bearing, and more particularly to an aluminum alloy bearing whose bearing surface is surface-treated.

Conventionally, there are two ways to use a plain bearing made by press-bonding an All alloy to a steel backing plate: one is to use it without applying oat (lay) or other surface treatment to the bearing surface, and the other is to use it without applying oat (lay) or other surface treatment to the bearing surface.
There are cases where overlays such as Sn-based and Pb-8n-Cu based are used. In the former case, there is a risk of seizure occurring before the break-in occurs, and there is also a risk of It had the disadvantage of inferior characteristics. Furthermore, in order to overlay plain bearings, several plating layers must be formed.
In addition, oat clay has unsatisfactory corrosion resistance, and has not always had sufficient seizure resistance.

The present invention has been made to eliminate the above-mentioned seven drawbacks, and consists of forming a lubricating film containing a solid lubricant on the surface of a sliding bearing, or applying a base film to the bearing surface. An object of the present invention is to provide an aluminum alloy bearing having excellent seizure resistance by forming a lubricating film thereon.

Examples of the present invention will be described below. First, a two-inning material made of AJI alloy is pressure-welded onto a blank copper plate, and then formed into a cylindrical or half-cylindrical bearing, and then a lubricating film containing a solid lubricant is coated on the surface of the bearing. .

This lubricating film is made of synthetic resin such as fluororesin, phenol resin, or epoxy resin as a base material, and on this base material is selected from among molybdenum disulfide, graphite, boron nitride, tungsten disulfide, and polytetrafluoroethylene resin. It is formed from a mixture selected and added as appropriate, and this mixture is applied by a tamping method, a spray method, a dipping method, a brushing method, or the like.

The compositions indicated by No. 1 to 4 in Table 1 are examples of the above mixtures. The thickness of the lubricating film shall be 10 μm or less, but 7 μm or less.
It is preferable that it is less than μm. It is more preferable that the thickness is 5 μm or less.

Front page A preferred composition of the bearing base metal according to the present invention will now be described. As an Al-based alloy, Cr1Si, Mn, S'b, Ti, Zr*Ni, Fe,
W, Ce, Nb, V, Mo, Ba.

One or more of the Ca and Co additive groups are added in a total amount of 1 to 10%. Further, 3% or less of Cu and/or Mg is added as necessary. Furthermore, one or more of pb, Bi, ■n@Tl*Cd can be added in a total amount of 9% or less.

The preferred composition range when all additives are added is 3 to 7% Sn, with a total amount of 1 to 6% of the additive group.
%, Cu and/or MgO01-0.8%, Pb, B
i, a combination of Tl 1 cdo, 5-5% and a lifting platform of 7.5-25% Sn, a total amount of additive groups 1-6%, Cu and/or MgO 81-2.0%, P
b, Bi, ■n@TJ*Cd is a combination of 0.5 to 5%. In all of the above cases, the remainder is made of Al.

The thickness of the lining surface made of the alloy having the above composition is preferably about 0.1 to 11 Im, and the surface roughness is preferably about <0.8 to 2 μm, which is slightly rougher than the conventional one.

It goes without saying that an AI-based alloy that does not contain sn may also be used.

In this way, by coating the surface of the flat bearing with a lubricating film containing a solid lubricant, the seizure resistance can be significantly improved at the initial break-in stage. Furthermore, even if the lubricating film wears out, the bearing performance can be maintained due to the solid lubricant packed in the rough surface of the lining layer.Therefore, the lining material is made of a hard material with excellent fatigue resistance. It becomes possible to use it. Furthermore, the abrasion particles generated by wear also serve to lubricate other sliding parts of the engine.

As a result of conducting a friction test using an ultra-high pressure tester on the bearing of the present invention having the above configuration, it was found that the bearing
It was confirmed that the bearing of the present invention suffered from seizing at a seizure force of about 1.000 to 1.050 b7cm2, and the seizing resistance was significantly improved compared to the conventional bearing.

Next, the second invention will be explained. First, a bearing having the same structure as in the above example was formed, and then anodizing treatment was performed to provide a base film, and then a lubricant film containing a solid lubricant was formed on the bearing surface in the same manner as above. do.

The anodizing treatment uses a 10 to 15 wt% sulfuric acid aqueous solution at a bath temperature of 20 to 25°C, using the above bearing as an anode,
A lead plate is used as a cathode, and a direct current is applied at a current density of 2 A/am2 for 10 to 60 minutes (time jld is selected depending on the thickness of the desired film). Further, chromate treatment, sandblasting treatment, etc. may be performed as a means for forming the base film. For example, chromate treatment is carried out in a treatment solution consisting of chromic acid 30 (Jl, %H2So, 30 wt%, the balance water) at a solution temperature of 50°C and an immersion time of 90%.
Performs second processing. In addition to the above-mentioned methods, known means can be used for anodizing, chromic acid, sandblasting, etc. as the base film.

In this manner, by forming the lubricating film after providing the base film, it is possible to further improve the seizure resistance. Note that the anodic oxide film preferably has a thickness of 5μ or more. That is,
This is because if it is less than 5μ, the base material is likely to be exposed due to initial wear under conditions of high load and high speed sliding, resulting in poor durability.

As described above, the present invention has the effect of significantly improving the seizure resistance of a sliding bearing.

Claims (1)

[Scope of Claims] (1) An aluminum alloy bearing formed by press-welding an AJ alloy onto a backing steel plate, characterized in that a lubricating film containing a solid lubricant is formed on the bearing surface. (2) Claim 1, in which the solid lubricant is based on a synthetic resin and contains at least one of molybdenum disulfide, graphite, boron nitride, binary tungsten, and polytetrafluoroethylene resin. Aluminum alloy bearing as described. (8) An aluminum alloy bearing formed by pressing an Al-based alloy onto a backing steel plate, characterized in that a lubricating film containing a solid lubricant is formed on the base film provided on the bearing surface. . (4) The aluminum alloy bearing according to claim 6, wherein the base film is provided by any one of anodizing treatment, chromate treatment, and sandblasting treatment. (6) The solid lubricant is based on a synthetic resin and contains at least one of molybdenum disulfide, graphite, boron nitride, tungsten disulfide, and polytetrafluoroethylene resin. The aluminum alloy bearing according to item 4.