DE2923579C2 - Anti-friction paste - Google Patents

Description

Epoxy resin 40 to 80 Molybdenum disulfide 15 to 30 graphite 10 to 15 aluminum 5 to 10 copper 5 to 10 Aluminum sheet 8 to 15 Polyäthylenpolyami η 5 to 10.

2. Antifriction paste according to claim 1, characterized in that it also contains a solvent for the epoxy resin in an amount of 5 to 30 parts by weight.

The invention relates to mechanical engineering, in particular to anti-friction pastes which are used to produce a lubricating film on the friction surfaces of assemblies.

Anti-friction pastes based on phenol-formaldehyde, epoxy, butyraldehyde and other film formers are known, the sliding properties of which follow a filler such as molybdenum disulfide, titanium disulfide or a mixture of these (see for example Sentjurichlna, L.N., Oparina, E.M. "Solid molybdenum sulphide", Verlag "Chlmlja" ("Twerdye disulfldmollbdenowye smaski «), Moscow, 1966, pp. 24-99). The hardening of these items takes place in ovens at a temperature of 100-200 ° C, whereby The anti-friction pastes mentioned cannot be used for the lubrication of large friction units such as machine guides that are 3 m and more long. These Pastes are used to produce a solid lubricating film only with small friction units.

Anti-friction pastes are also known for producing the solid lubricating film in friction units, which are cured at room temperature. For example, one of the well-known anti-friction pastes the following composition (in parts by weight):

Epoxy resin 80 to 150 Dibutyl phthalate 15 to 30 Molybdenum disulfide 50 to 100 Polyethylene polyamines 15 to 30

Solvent for epoxy resin, consisting of 50 weight points Toluene, 15 weight points butane oil, 10 weight points ethanol, 10 Weight points of butyl or amyl acetate, 8 weight points of ethylene glycol and 7 weight points Acetone 80 to 150

(see e.g. SU-PS 2 28 231).

The known paste described has a liquid one Consistency and is on the friction surfaces of the parts in

To apply friction units with a brush or by atomization (for example with the help of an atomizer). The thickness of the resulting solid lubricating film lies in a range from 0.05 to 0.1 mm. the The specified thickness restriction significantly degrades the working capacity R of the solid lubricating film (i.e. the working capacity of friction units).

The smooth property values (coefficient of sliding friction f friction, intensity of linear wear IA and work capacity R) of the solid lubricating film which the paste of the above-mentioned composition forms are insufficient when the paste is used in friction units, for example in machine guides, especially in the case of precision machine tools. At a sliding speed V = 0.06 m / s and load P = IOkPZCm ¹ , the coefficient of sliding friction f friction is 0.5, the intensity of internal wear is L 1.0.10 ~ ⁷ and the work capacity R is 8.5 km.

The purpose of the present invention is to avoid the disadvantages mentioned.

The invention is based on the object of such To develop the composition of the anti-friction paste and such a ratio between the components of the paste to choose that the paste can be applied in both small and large rubbing units can and that the solid lubricating film based on the paste mentioned has high slip property values.

This object is achieved by proposing an anti-friction paste based on epoxy resin, molybdenum disulfide and polyethylene polyamine, wherein the paste according to the invention also graphite, aluminum, copper and aluminosilicate with the following ratio between the components (in weight) contains:

Epoxy resin 40 to 80 Moiybdändlsulfld 15 to 30 graphite 10 to 15 aluminum 5 to 10 copper 5 to 10 Aluminum sheet 8 to 15 Polyethylene polyamines 5 to 10

If a solid lubricating film with extremely high hardness

Is an anti-friction paste with a high filler content (molybdenum disulfide, graphite, aluminum, copper, aluminum oxide) preferred. In In this case it is recommended to add a solvent for epoxy resin to the anti-friction paste in an amount of 5 to add up to 30 parts by weight. The addition of the solvent ensures the paste the required Consistency.

The anti-friction paste according to the invention is as Called ÄDMA.

The presence of molybdenum disulfide and graphite in the inventive paste ÄDMA allows a significant reduction of the coefficient of friction f _{Ä "w.} At sliding speed V = 0.06 m / s and load P = 10kp / cm ² , for example, the Gleltrel Exercise number 0.2.

Due to the presence of aluminosilicate, copper and aluminum in the paste according to the invention, the mechanical strength and wear resistance of the solid lubricating film based on said paste significantly increased and thus the intensity of the linear wear L, of the specified lubricating film can be significantly reduced. At sliding speed V = 0.06 m / s and load P = 10kp / cm ²

for example the intensity of the linear wear 1.0.10 "'·

The paste according to the invention has a thick consistency and can be applied in a layer of any thickness, expediently in a 1 to 2 mm thick layer, to the friction surfaces of the parts of friction units. At the same time, the working capacity R of the solid lubricating film based on the paste mentioned increases significantly. With a sliding speed of V = 0.06 m / s and a load of P = 10 kp / cm ² , the work capacity for the example is 250 to 500 km (depending on the thickness of the solid lubricating film *).

The anti-friction paste of the invention Composition is cured at room temperature; therefore they can be used both in small and in is use large friction units. The parts of the Relbeinhelten can be extended from metal, wood and plastic.

The anti-friction pasia according to the invention is prepared by mixing the epoxy resin with a filler in the proportions just given. Some Minutes before the anti-friction paste is applied to the friction surfaces of the parts of the friction units the prepared mixture a cold curing agent, Poiyäthylenpolyamln, under intimate mechanical Stir too.

The prepared paste is made, for example, with a spatula applied to the friction surfaces of the parts of friction units. The applied paste is set at a temperature of 18 to 22 ° C in the course of 1.5 to 2 hours. the. The resulting solid lubricating film gains maximum hardness at the specified temperature Im Run from 36 to 48 hours after wrapping the paste. The hardening time of the anti-friction systems is reduced on 15 to 20 h when curing at one temperature from 35 to 40 ° C.

If the anti-friction paste is to have a high filler content, it is advisable to add a solvent for epoxy resin to the paste in the amounts specified above. As solvents for epoxy resin can be acetone, toluene, ethanol, butanol, or a mixture consisting of 50 weight bodies of toluene, 15 weight bodies butanol, 10 weight bodies ethanol, using 10 weight bodies butyl or amyl acetate, 8 weight bodies ethylene glycol and 7 weight bodies acetone, as.

The above mentioned Gleltrelbungszahl f _{Ä /} 4 _"ni, intensity of the linear wear I ₄ and the work capacity R above the solid lubricating film on the basis of the paste of the invention can be determined according to the following methodology, after which the process of the face of friction-working machine is used .

According to this method, the anti-friction paste is applied to the face of a cylindrical metal socket on. After the paste has hardened at a temperature of 18 to 22 ° C and the The resulting solid lubricating film is placed on the test body (the socket with the Lubricant film) in alignment with the similar bushing without a lubricant film (counter body), then brings the test body into contact with the end face of the counter body under the action of a certain load, after which the counter body is set in rotary motion. the Frictional force F In the friction area of the contacting surfaces of the test body and the counter body, a strain gauge and a registration device fixed.

The coefficient of sliding friction-free environment is according to the formula fRäbung = - determined,

where F is the frictional force in kp,

/ "is the normal force in kp / cm ² .
The intensity of the linear wear I /, is calculated according to the formula

A = γ- 10- '

determines where h is the wear (reduction in thickness) of the solid lubricating film, measured by means of a micrometer in μτη and L is the sliding friction value in km on which wear A has arisen. The sliding friction path L results from the formula

where V is the sliding speed of the counter body

in m / s and / is the flexitime in seconds

The work capacity R of the solid lubricating film is determined using the following formula:

where Δ is the initial thickness of the solid lubricating film in mm.

For a better understanding of the present invention, the following examples are given for its concrete implementation. In all examples, the equilibrium index i _{Ktibun! T} , the intensity of the linear wear \ _h and the work capacity R of the solid lubricating film are determined using the method described above.

example 1

Prepare the anti-friction paste of the following composition (in parts by weight):

Epoxy resin 60 Molybdenum sulphide 24 graphite 12th aluminum 8th copper 5 Alumosllicate 10 Polyethylene polyamines 8th acetone 15th

To do this, the epoxy resin is mixed with acetone. Of the The resulting solution is given a filler: molybdenum disulfide, graphite, aluminum, copper and aluminosilicate with thorough mechanical stirring for 5 to 10 minutes. 8 to 10 minutes before applying the paste A cold hardening agent, polyethylene polyamine, is added to the prepared mixture on the friction surfaces of the metallic parts of the Relbelnhelt, with thorough mechanical stirring.

The anti-friction paste is applied with a spatula to the friction surfaces of the parts of a 2 mm thick layer applied. The applied paste will set after 2 h at a temperature between 18 and 20 ° C. The emerging solid The lubricant film regains its hardness during 48 hours

applying said paste to the friction surfaces of the parts of the friction unit. The hardening time of the anti-friction paste decreases to 15 h. if the aforementioned curing is carried out at a temperature of 35 to 40 ° C will.

The sliding property values of the solid lubricating film on the basis of the paste of the specified composition, obtained in the attempt of a Relbelnhelt, which works with a sliding speed V of 0.06 m / s at 2 kp / cm ² load P, are as follows:

Friction coefficient i _{Reibu "g}
Intensity of
linear wear I _A
Employment R, km

0.25

1.0 ■ 10- ' 525

Example 2

Sliding coefficient of friction f ", _{/ tl} " _s
Intensity of
linear wear \ _h
Employment R, km

0.28

2.2-10- '300

IO

Analogous to example 1, an anti-friction paste of the following composition (in parts by weight) is prepared:

The subsequent steps of the Aufbrlngen the paste aiii the friction surfaces of the parts of a friction unit and the hardening of the paste are carried out analogously to Example 1.

The sliding property values of the solid lubricating film based on the paste of the above-mentioned composition, obtained when testing a friction unit that operates at a sliding speed V of 0.06 τι / s at 2 kp / cm ² load P, are as follows:

50

aluminum 6th copper 5 Alumosillkai 9 Polyethylene polyamine 6th toluene 5

The subsequent steps of applying the paste to the friction surfaces of the parts of a rubbing brush help and the hardening of the paste are carried out analogously to Example 1.

The sliding property values of the solid lubricating film based on the paste of the specified composition are similar to those in example 1.

Example 4

Prepare an anti-friction paste
Composition (in parts by weight) to:

following

20th

Epoxy resin 40

Molybdenum disulfide 15

Graphite 10

Aluminum 5

Copper 7

Alumosiltkat 8

Polyethylene polyamine 5

Solvent for diana epoxy resin, consisting of 50 parts by weight

Toluene, 15

Parts by weight of butanol,

10 weight points ethanol,

10 parts by weight of butyl acetate, 8 parts by weight of ethylene glycol

and 7 parts by weight of acetone 30

Epoxy resin 80 Molybdenum disulfide 30th graphite 15th aluminum 10 copper 10 Alumosllicate 15th Pc = y ethylene poly ami n 10

For this purpose, the epoxy resin is filled with a filler (molybdenum disulfide, graphite, aluminum, copper and Alumosllikat) mixed in the proportions given above. The subsequent steps of preparation the anti-friction paste, its application to the friction surfaces of the parts of a friction unit and the The paste is hardened in the same way as in Example 1.

The sliding property values of the solid lubricating film based on the paste of the specified composition are similar to those in example 2.

The following are the comparative data showing the sliding property values of the solid Characterize the lubricating film on the basis of the well-known anti-friction pastes. These sliding property values were obtained in the test of a friction unit, which under the conditions described in Example 1 is working.

The sliding property values of the solid lubricating film based on the known anti-friction paste according to FIG SU-PS 2 28 231 are as follows:

Sliding coefficient of friction f _Keibu " _g
Intensity of
linear wear I _A
Work capacity R, km

0.7

0.9 ■ 10- '
111

Example 3

The sliding property values of the solid lubricating film 55 based on a known anti-friction paste are, as in analogy to example 1, an anti-friction paste is as follows:
The following composition (in proportions) prepared. _Sliding coefficient of friction ( Rtlbunil 0.47

Intensity dfi. "

Epoxy resin 45 60 linear wear Ι _Λ 2.3-10- *

Molybdenum disulphide 20 working capacity R, km 40

Graphite 10

Claims (1)

Patent claims: 1. Antifriction paste containing epoxy resin, Molybdenum disulfide and Polyäthylenpolyamln, characterized in that ste in addition Contains graphite, aluminum, copper and aluminosilicate, the ratio between the components - expressed in parts by weight - as follows 1st: