DE102006003906A1 - Coating to improve the lubrication, wear resistance or adhesion in a contacting bearing in a machine comprises a base material and a nano-material - Google Patents

Abstract

A coating for the surface of a part of a bearing in chafing contact consists of a base material together with a nano-material selected according to the desired wear, lubricating or adhesive properties.

Description

Territory of invention

The The present invention relates to a coating on predetermined surfaces from a rubbing contact exposed machine parts, in particular of plain bearings.

It is the applicant known sliding coatings for example, plain bearings or friction and brake pads made of resin with different materials to fill. For example a liquid Resin fillings with micropowder or fiber reinforcements for one Improvement of sliding properties, wear and corrosion resistance or to improve the mechanical properties.

At However, this approach has proved to be disadvantageous that such fillers in the micrometer range locally on the micro level the mechanical and physical properties, but improve unevenness Micro level persists. This can disadvantageously unfavorable friction coefficients, a higher one Wear and tear a lower fatigue strength result because microfilling often cause mechanical cracks, as they can occur as so-called crack germs.

It is therefore an object of the present invention, a coating on predetermined areas of indicate machine parts subject to rubbing contact, wherein the coating has an improved sliding property, improved Wear resistance, an improved fatigue strength and / or improved adhesion having.

According to the invention this Task by a coating with the features of the claim 1 solved.

The The idea underlying the present invention is that that the coating consists of a base material and at least one, depending the desired Wear-, Slip and / or adhesive properties of the coating of selected nanomaterial consists.

Consequently the present invention over the known approaches the Advantage that, by the or the added nanomaterials the homogeneity the plain bearing over the lifetime can be improved. The nanomaterials point at least partially complete other mechanical and physical properties than the usual ones Materials with the same chemical composition. Thereby can be added by adding of the nanomaterial (s) completely new properties adjust the sliding or frictional contact. In addition, due to the increased ratio from surface to nanomaterial volume, the mass of added particles reduce considerably.

One Another advantage of the present invention is that an improved uniformity at the microscopic level by adding the nanomaterial (s) is reached. A significantly higher macroscopic wear resistance, lower or deliberately higher friction in sliding linings, longer Lifespan, avoiding stick-slip effects, or the like can be targeted can be achieved by suitable selection of the nanomaterial (s). Also physical properties, such as the thermal or electrical conductivity, optical and magnetic properties, or the like in an analogous way by a suitable choice of the one or the other Targeting nanomaterials.

In the dependent claims find advantageous embodiments and improvements of specified in claim 1 coating.

According to one preferred development, the base material consists of a plastic, for example, from a resin. As a particularly suitable resin material has turned out epoxy resin. Other types of resins, such as Phenolic resins have proven to be particularly suitable. The resin is preferably in liquid So that the selected nanomaterial (s) belong to the liquid resin can be added.

According to one Another preferred embodiment is the at least one nanomaterial Graphite, molybdenum disulfide and / or an organic material such as polytetrafluoroethylene, to improve the sliding properties of the coating. The nanomaterial is preferably in turn the liquid plastic or the liquid Resin mixed.

According to one another preferred embodiment the at least one nanomaterial consists of at least one ceramic to improve the wear characteristics the coating. The selected or selected Ceramics are used, for example, as nanopowders a liquid base material, for example, a liquid Resin, mixed.

According to a further preferred development, the coating has different nanomaterials with different material properties at different layer depths. As a result, for example, the coating on the Surface a nanomaterial with particularly suitable sliding properties and in an underlying layer depth on a nanomaterial with particularly suitable wear resistance to achieve a high fatigue strength of the coating. The individual materials and layer depths as well as compositions and material ratios are to be adapted to the desired properties of the coating in the different layer depths.

According to one another preferred embodiment If the at least one nanomaterial consists of a chemical and / or physical treatable nanomaterials for modification of, for example, the Binding properties, surface properties or the like. Thereby can the individual nanomaterials before adding to the base material with the desired properties be formed, whereby after introduction of the nanomaterials in the provided layer depths these specially selected properties have advantageous.

The Coating additionally has, for example, at least one selected micropowder. However, this is not mandatory, but can at certain desired Properties useful be.

in the Below are embodiments of the present invention closer explains although it is for a person skilled in the art will appreciate that the present inventive concept is not limited to the reproduced embodiments, but is determined by the scope of the claims.

According to one first preferred embodiment According to the present invention, the base material is a resin, for example an epoxy resin, in liquid Form used.

the liquid Resin then enter or more nanomaterials admixed such that the coating consisting of the base resin and the admixed Nanomaterials predetermined slip characteristics, wear characteristics and / or adhesive properties. The blended Nanomaterials can very different chemical and mechanical compositions exhibit. For example, are for Improvements in sliding properties Nanomaterials made of graphite, molybdenum disulfide or polytetrafluoroethylene or other chemical compositions advantageous. To improve wear resistance, for example, nanomaterials made of ceramics. Metallic nanomaterials, such as Metal oxides are advantageously admixed with the liquid resin in order to the physical properties, such as the electrical and thermal conductivity, optical or magnetic properties, adhesive strengths, surface affinities or to set the like targeted.

The For example, mixed nanomaterials can be added be pretreated prior to admixture by means of suitable methods. This can be next to the use of chemically pure nanomaterials also chemically and / or physically modified materials are used. Advantageous are the nanomaterials chemically, for example by means of acids, alkalis, Salts or the like, or physically, for example by means of radioactive radiation, magnetization or the like, treated appropriately before admixture. This can, for example targeted chemical bonds between the nanoparticles and the base material, hydrophobic or hydrophilic surfaces for a corresponding wettability be achieved with any lubricant or other effects.

Of Further can additionally micromaterials suitable for the nanomaterial (s), in particular micropowder, the liquid resin be mixed to specially desired material properties to achieve the coating.

The above nanomaterials can either alone or in predetermined mixing ratios together or in any imaginable combination be admixed to the base material, in dependence from the respectively desired Properties of the coating produced.

Especially in the case of coatings of machine components subjected to rubbing contact or in plain bearings coatings are advantageous, which in different layer depths different material properties exhibit. For example, for the surface layer a high wear resistance desired with a low abrasion, so that by means of several successive procedures the base material in the upper layer depth, for example, a nanoceramic powder is added, which a high wear resistance having. Furthermore, the layer surface may also comprise a nanopowder graphite, molybdenum disulfide or polytetrafluoroethylene are admixed to the sliding properties to improve the upper layer of the coating.

This is only to be understood as an exemplary embodiment, it being obvious to a person skilled in the art that different nanomaterials are brought into the individual layer depths of the coating by means of different methods in order to achieve predetermined material properties of these layer depths can be introduced.

Consequently the present invention provides a coating comprising a across from the known approaches improved uniformity at the microscopic level. Further, a coating with a much higher one microscopic wear resistance, with a lower or deliberately higher friction in friction and brake pads, with a longer one Lifetime and achieved without stick-slip effects. The physical Properties, such as the thermal and electrical Conductivity, optical and magnetic properties, or the like Set yourself in the manner described above. Especially can also different layer depths of the coating through targeted Introduction of predetermined nanomaterials with specific properties formed in these layer depths with predetermined properties become.

moreover let yourself with the help of nanofillers also the homogeneity from plain bearings over to better control the life, reducing the amount of fillers can be reduced.

Even though the present invention based on preferred embodiment As described above, it is not limited thereto on diverse Modifiable way.

Claims (10)

Coating on predetermined surfaces of one rubbing contact exposed machine parts, in particular of Plain bearings, consisting of: a basic material; and from at least one in dependence the desired wear, sliding and / or adhesive properties the coating selected Nanomaterial. Coating according to claim 1, characterized that the base material of at least one plastic, for example made of a resin. Coating according to claim 1 or 2, characterized that the at least one nanomaterial made of graphite, molybdenum disulfide and / or from an organic material, for example from polytetrafluoroethylene, to improve the sliding properties of the coating. Coating according to at least one of the preceding Claims, characterized in that the at least one nanomaterial consists of at least a ceramic to improve the wear properties of the coating consists. Coating according to claim 1, characterized that the base material consists of at least one metallic alloy, for example, from a bronze alloy exists. Coating according to claim 5, characterized in that that the at least one nanomaterial consists of at least one metal and / or at least one metal oxide. Coating according to at least one of the preceding Claims, characterized in that the coating in different Layer depths different nanomaterials or different Nanomaterial compositions with different material properties having. Coating according to at least one of the preceding Claims, characterized in that the at least one nanomaterial a chemical and / or physically treatable nanomaterial to change binding properties, surface properties or the like consists. Coating according to at least one of the preceding Claims, characterized in that the coating additionally at least a selected one Having micropowder. Use of the coating after at least one of the preceding claims as a sliding surface a sliding bearing or a sliding plate of a machine part.