SU1174467A1 - Lubricating compound - Google Patents

Abstract

LUBRICATING COMPOSITION containing mineral oil, polysiloxane liquid and thickening additive, characterized in that, in order to reduce wear rate and friction coefficient by implementing the selective transfer effect, the composition additionally contains triethanolamine, and as a thickening additive - polyisobutylene in the following ratio of components, wt.%: Polysiloxane fluid 0.5-2.5 i Triethanolamine 1.0-5.0 Polyisobutylene 0.5-2.5 (L Mineral oil Up to 100

Description

4 4 Od The invention relates to lubricating compositions used to increase wear resistance and to reduce the coefficient of friction in the friction units steel alloy copper. The purpose of the invention is to reduce the wear rate and the coefficient of friction in the friction units of steel, copper alloy by implementing the effect of electoral transfer. Examples of s.mazochny compositions are given in table. 1. For the preparation of a lubricant composition, various petroleum oils are used as mineral oil: industrial industrial, alloyed, transmission, etc .; polysiloxane fluid; triethanolamine; polyisiloxane fluid lowers free surface energy, promotes the interaction of copper alloy elements with a lubricating medium, triethanolamine is introduced into the composition to reduce copper and form a copper film on the surfaces of friction, polyisobutylene is used as a thickening anti-wear mineral additive to oils. It promotes micelle formation at the initial stage of selective transfer. Polyisobutylene is added to the mineral oil at room temperature, then polysiloxane fluid and trizthanololamine are added to obtain the lubricant composition. Within 510 minutes, all is thoroughly mixed. The results of comparative tests of the known and proposed lubricant compositions are given in table 2,

Table 1 The wear test is carried out on the face friction machine at MPa, the Movable sample is made of steel 45, hardened on HBC50, the stationary sample is made of bronze Br ОЦС-5-5 5. The average test speed is 0.4 m / s, the loading is stepped , test duration 5h. During the tests, the linear wear h, the coefficient of friction f and the maximum specific pressure P, Vlti are determined using inductive sensors. The wear rate is determined by the formula Ih h / L, where L is the path of friction. To determine Pfndx, the load is increased in steps, until a sharp increase in the coefficient of friction. With a decrease in the concentration of the poly-siloxane liquid and triethanol-amine below the recommended effect, the selective transfer effect is not realized, the values of the friction and wear characteristics deteriorate,. An increase in the concentration of the polysiloxane liquid and triethanolamine above the maximum causes instability in the selective transfer mode, which also causes deterioration of friction and wear characteristics, especially P, (in the Use of a lubricant composition, by implementing the effect of selective transfer, it reduces the friction coefficient 2-2.5 times, wear rate 3.5-6.0 times. At the same time, the load capacity of the steel friction units — the copper alloy increases 2.4-2.8 times.

Polysiloxane fluid

Triethanolamine diphenylamine

0.5 1.5 2.5 1.0 3.0 5.0

Polyisobutylene

1 mineral mas on I-40A

To obtain comparable results in a known composition, the vinylpol used is replaced by polyisobutylene.

, G 0,5 1,5 2,5

91.0 98.0 9A, 0 90.0

table 2

Claims (1)

A LUBRICANT COMPOSITION containing mineral oil, polysiloxane fluid and a thickening additive, characterized in that, in order to reduce the wear rate and friction coefficient by implementing the selective transfer effect, the composition additionally contains triethanolamine, and as a thickening additive, polyisobutylene in the following ratio of components, wt .%: Polysiloxane liquid 0.5-2.5 Triethanolamine 1.0-5.0 Polyisobutylene 0.5-2.5 Mineral oil Up to 100