DE10306096A1 - Metal-ceramic composite for bearings has specified composition including aluminum and ceramics - Google Patents

Abstract

One or more metallic phases include 30-75 vol % aluminum and its alloys especially. 25 - 75 vol % comprises one or more non-metallic inorganic, ceramic components, especially silicon carbide, aluminum oxide, titanium oxide and silicate.

Description

The invention relates to metal-ceramic composites for friction / sliding Applications where to ensure or improve the function the materials / material combinations used are high Have thermal conductivity and / or generate low frictional heat and / or tend to have low static friction as well as defined sliding / friction pairings based on these materials.

In the case of both sliding and friction pairings, the resulting frictional heat must be quickly removed from the friction / sliding area. That is required to to maintain a lubricating film or constant friction values guarantee. For sliding pairings, especially in the mixed friction area or at Dry running, according to the state of the art, sliding pairings are based of silicon carbide against coal, as used, for example, in W. Tietze, Handbuch Dichtungspraxis, 2nd edition, Vulkan-Verlag, 2000.

The low thermal conductivity of coal, for example 8 to 17 W / mK according to the material properties of the company Schunk carbon technology GmbH, technologies in carbon, division 1, storage and Sealing technology, material parameters, standard materials, Schunk, 30.14 (1997), can lead to a noticeable increase in temperature in the gap. A such an increase in temperature leads to a thermal load on the Binder system and impregnation, the changes in materials can cause, which in turn lead to unfavorable sliding conditions. The Impairment of the tribological properties can be despite the very good Thermal conductivity of the silicon carbide of, for example, 80 to 130 W / mK occur.

Temperature increases of the sliding partners have an influence on the respective one Liquid in the gap and lead to changed friction / sliding conditions.

Solution products may change due to the temperature crystallize out what leads to an increased breakaway after the standstill / Starting torque and, in the worst case, leads to the gliding pair sticking together.

This can be the case with both rotating and translating ones Sealing elements occur.

Low mechanical values such as tensile strength, bending strength and hardness Sliding partners, for example coal with 30 to 80 MPa, additionally limit the Area of application of the above-mentioned sealing elements. Fillers, in particular Impregnations can be partially attacked. Chemically aggressive Media cause the impregnation to swell and change as a result the tribological conditions. This is another cause leading to one Temperature increase in the gap can result.

Temperature and pressure change the geometry and thus the original Design state of a pairing, which usually leads to a Functional deterioration results.

The object of the present invention is to create a cheap friction / Sliding system, which meets the following requirements: constant Friction / sliding properties, high thermal conductivity, dimensional stability through high E-module and high strength.

This task is solved by selecting certain materials and material pairings.

The materials according to the invention with the required properties include metal-ceramic composites, MKV materials made from one or several metallic phases with a share of 30 to 75 vol .-% exist and one or more non-metallic inorganic components with a share of 25 to 70 vol .-%. Aluminum is the metallic phase and preferred its alloys. The non-metallic ceramic Components are ceramic materials, preferably silicon carbides, Aluminum oxides, titanium oxides and silicates.

One of the preferred MKV materials based on Al ₂ O ₃ and Al has a composition of 40 to 60 vol.% Al ₂ O ₃ and 60 to 40 vol.% Al with a thermal conductivity of> 50 W / mK, a bending strength of, for example, 300 MPa and an elastic modulus of, for example, 160 GPa.

Another preferred MKV material based on SiC and Al has one Composition of 60 to 80 vol .-% SiC and 40 to 20 vol .-% Al with a Thermal conductivity of, for example, 180 W / mK, a bending strength of for example 300 MPa and an elastic modulus of for example 200 GPa.

Metal-ceramic composite materials with a metal content of more than 50% by volume are called metal matrix composites (MMC). Is the ceramic part over 50 vol .-%, the material is called Ceramic-Matrix-Composite (CMC).

On the processed functional surfaces there are surface qualities with Ra values achieved less than 1 µm. This can be achieved through adapted hard machining processes however varies and can therefore be optimized depending on the tribo partner.

Due to the choice of materials for MKV materials and the surface quality, at the friction / sliding applications reduce the heat development. In addition, due to the high thermal conductivity of the materials, the resulting in the sealing gap Heat quickly released to the environment. The sealing gap temperature is thereby lowered and the cracking, the crystallization and deposit formation in the Sealing gap, significantly reduced. The result is cheaper and more constant Coefficients of friction and wear values.

The improved dimensional stability also reduces the possibility of Edges run. This reduces the temperature peaks and leads to more stable ones Liquid films in the sealing gap, which in turn reduces friction and Reduced heat generation.

In so-called hard-soft pairings, the substitution of the softer leads Partners, for example coal or plastic, by a ceramic or a Composite material to improve mechanical properties of the whole Systems and thereby expands the possible uses. Furthermore, the tribological conditions improved by the fact that friction partners that are used for Sources tend and / or are critical of chemical attacks behave, be avoided. The pairing can therefore be interpreted with tighter tolerance limits than with previous materials.

In so-called hard / hard pairings, the use of MKV Materials of dry running or the emergency running properties of the tribological Pairings improved.

Reducing wear increases the service life of the Friction pairings and the maintenance intervals are extended.

When using the materials and material combinations according to the invention there are decisive improvements in the industrial area, especially in the automotive and consumer goods industries.

In general, the tribological properties of the mating can be over one targeted design of the material, through a selected combination of Ceramic and metal in the penetration structure, for the example below listed applications.

Mechanical seals in cooling water pumps, especially MKV / coal, MKV / Al ₂ O ₃ , MKV / SSiC, MKV / MKV, MKV / HM (hard metal), MKV / ZTA (Al ₂ O ₃ + ZrO ₂ ).

Mechanical seals in dishwashers, especially MKV / coal, MKV / Al ₂ O ₃ , MKV / SSiC, MKV / MKV, MKV / HM. MKV / plastic, optionally fiber-reinforced.

Mechanical seals in pumps for gasoline direct injections, especially MKV / coal, MKV / SSiC, MKV / Al ₂ O ₃ , MKV / MKV, MKV / HM, MKV / ZTA.

Mechanical seals in CO ₂ compressors, especially MKV / SSiC, MKV / Al ₂ O ₃ , MKV / MKV, MKV / HM, MKV / ZTA.

Defined sliding / friction pairings between brake, bearing, sealing or Drive elements, for example in elevators, escalators, cranes, Dry clutches, in pumps and compressors for pistons and cylinders, Swash plates, radial bearings or axial bearings for bearings in grinding cylinders and with sliding partners for shaft seals.

Through the targeted selection of the materials of the friction partners for the respective Use case new fields of application arise, especially in lubrication-free areas of application such as B. in pharmaceutical and Cosmetics industry or in food technology.

Especially where there is the problem of gluing after downtimes or deposits in the sealing gap with high breakaway torques are recommended the materials of the invention as a friction partner, for example as Sealing washers for espresso, sanitary and industrial fittings or for Shut-off valves.

Other applications are side plates in petrol or power steering pumps. In addition to wear resistance, these are particularly high Dimensional stability, which is due to the low shrinkage of the components is guaranteed. This increases the efficiency of the pumps Smaller, more compact and lighter versions are possible.

Possible use as rollers and / or bearing elements, e.g. B. in Internal combustion engines, compressors or exhaust flaps.

Use in highly stressed valve trains, such as those used in diesel engines are an alternative to today's complex solutions.

As a rule, sliding elements are specially made according to customer drawings and Customer specifications created. Typical dimensions for large series sliding rings are: outer diameter: 18 to 28 mm, inner diameter: 8 to 20 mm and Height: 2 to 5 mm.

Claims (18)

1. Metal-ceramic composite materials for friction / sliding applications characterized by the basic compositions of one or more metallic phases with a proportion of 30 to 75 vol .-%, preferably aluminum and its alloys, and one or more non-metallic inorganic components with a proportion from 25 to 70% by volume as ceramic materials, preferably silicon carbides, aluminum oxides, titanium oxides and silicates. 2. Metal-ceramic composite materials according to claim 1, characterized in that the composition contains 40 to 60 vol .-% Al ₂ O ₃ and 60 to 40 vol .-% Al. 3. Metal-ceramic composite materials according to claim 2, characterized characterized that the thermal conductivity is greater than 50 W / mK that the bending strength about 300 MPa and the elastic modulus about 160 GPa is. 4., metal-ceramic composite materials according to claim 1, characterized characterized in that the composition 60 to 80 vol .-% SiC and Contains 40 to 20 vol .-% Al. 5. Metal-ceramic composite materials according to claim 4, characterized characterized that the thermal conductivity is at least 180 W / mK is that the bending strength is about 300 MPa and the modulus of elasticity is about 200 GPa. 6. Metal-ceramic composite materials according to one of claims 1 to 5, characterized in that the in contact with a friction / sliding partner standing surfaces have an Ra value of less than 1 µm. 7. Slide ring made from one of the metal-ceramic composites one of claims 1 to 6. 8. sliding / friction pairings based on the metal-ceramic composite materials according to one of claims 1 to 6 or a sliding ring according to claim 7, characterized in that the following pairings of a partner made of metal-ceramic composite material (MKV) and a partner MKV or coal or Al ₂ O ₃ or SSiC or hard metal (HM) or ZTA (Al ₂ O ₃ and ZrO ₂ ) or plastics, optionally fiber-reinforced. 9. sliding / friction pairings as a mechanical seal in cooling water pumps according to claim 8, characterized in that the following material pairings are present: MKV / coal, MKV / Al ₂ O ₃ , MKV / SSiC, MKV / MKV, MKV / HM (hard metal), MKV / ZTA (Al ₂ O ₃ + ZrO ₂ ). 10. sliding / friction pairings as mechanical seal in dishwashers according to claim 8, characterized in that the following material pairings are present: MKV / coal, MKV / Al ₂ O ₃ , MKV / SSiC, MKV / MKV, MKV / HM. MKV / plastic, optionally fiber-reinforced. 11. sliding / friction pairings as a mechanical seal for gasoline direct injections according to claim 8, characterized in that the following material pairings are present: MKV / coal, MKV / SSiC, MKV / Al ₂ O ₃ , MKV / MKV, MKV / HM, MKV / ZTA. 12. sliding / friction pairings as a mechanical seal in CO ₂ compressors according to claim 8, characterized in that the following material pairings are present: MKV / SSiC, MKV / Al ₂ O ₃ , MKV / MKV, MKV / HM, MKV / ZTA. 13. Sliding / friction pairings based on the metal-ceramic Composite materials according to one of claims 1 to 6 between braking, Bearing, sealing or drive elements, for example in elevators, Escalators, cranes, dry couplings, in pumps and compressors Pistons and cylinders, swash plates, radial bearings or thrust bearings, at Bearings of grinding cylinders and with sliding partners for shaft sealing rings. 14. Sliding / friction pairings based on the metal-ceramic Composite materials according to one of claims 1 to 6 in lubricant-free Areas of application such as in the pharmaceutical and cosmetics industry or in the Food technology. 15. Sliding / friction pairings based on the metal-ceramic Composites according to one of claims 1 to 6 in fittings of the Sanitary or industrial. 16. Sliding / friction pairings based on the metal-ceramic Composite materials according to one of claims 1 to 6 for side plates in Gasoline or power steering pumps. 17. Sliding / friction pairings based on the metal-ceramic Composite materials according to one of claims 1 to 6 for rolls and / or Bearing elements in internal combustion engines, compressors or at Exhaust flaps. 18. Sliding / friction pairings based on the metal-ceramic Composite materials according to one of claims 1 to 6 in valve drives in Diesel engines.