SU1576545A1 - Plastic lubricant - Google Patents

Abstract

The invention relates to lubricants, in particular to greases, which can be used in various friction units of mechanisms, machines and devices. The goal is to increase the water resistance of the lubricant, its extreme pressure and antiwear properties. The lubricant contains, in wt%: lithium soap microbial fat acids 10 - 15, diphenylamine 0.2-0.4, oil oil the rest. This lubricant is rinsed off with water from the metal surface 3 times less than is known and provides higher antiwear (2 times) and extreme pressure properties. The load of welding increases from 1260 to 1600 N. 3 tab.

Description

The invention relates to lubricants, namely greases, which can be used in various frictional units of machines and instruments.

The purpose of the invention is to increase the water resistance of a lubricant and its extreme pressure and antiwear properties.

For the preparation of lubricants, petroleum oils are used - spun AU or MVP, lithium soap of microbial fat acids obtained by saponification of microbial fat with lithium hydroxide, and diphenylamine.

Microbial fat is a lipid-carbohydrate-fraction of yeast, recoverable in quantity from the mass of dry biomass grown on n-paraffins and

petroleum distillates. The chemical composition of microbial fat is a mixture of fatty acids of fraction C (6, phospholipids and triglycerides, and the content of phospholipids in the mixture is approximately 50-60% by weight.

The grease is prepared in the usual way. The spindle oil AU or IMP is mixed with lithium soap of microbial fat acids and diphenylamine additive. The mixture is heated to 210-215 ° C and kept at this temperature for 5-10 minutes. Homogeneous melt is poured onto a baking sheet in a thin layer and cooled at room temperature. A day later, the grease is rubbed through a metal grid.

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The compositions of the grease are given in table. one; the results of the study of water resistance (washability of lubricants with water from a metal surface) and anti-wear, extreme pressure properties of lubricants in comparison with the lubricant of prototype CIATIM-201 (composition 6) - in Table. 2

The evaluation of the washability of the lubricants with water is determined by the amount of the lubricant to be washed at 0 ° C for 6 hours.

The antiwear and extreme pressure properties of the lubricants are determined on a four ball friction machine.

The results of tests using standard methods for rheological properties (viscosity, ultimate strength), colloidal, mechanical and chemical stability of lubricants, as well as their corrosive effects on metals are presented in Table. 3

As can be seen from Table 2, the proposed lubricant is washed off with water from the metal surface 3 times less than is known, and provides higher antiwear (2 times) and extreme pressure properties (welding load rises from 1260 to 1600 N).

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The results of the study of the rheological properties of the lubricant (Table 3) show that the viscosity, tensile strength, thermal strength, as well as the colloidal and mechanical stability of the proposed lubricant are maintained in accordance with the requirements imposed by the operating conditions. The lubricant has good low-temperature properties, which determine its frost resistance, high chemical stability and does not have a corrosive effect on metals.

Claims (1)

A plastic lubricant containing petroleum oil, lithium fatty acid soap and diphenylamine, characterized in that, in order to increase the water resistance of the lubricant and its anti-seize and anti-wear properties, the lubricant contains lithium soap of microbial fat in the following the ratio of components, ma with %: Lithium soap microbial fat acids diphenylamine oil n oil T 10-15 0.2-0, Rest Blitz 1 Components The content of components, masd, in the composition of the lubricant 6 k 2 3,8 3,5 3,8 15 300 50 550 320 0.8 0.68 0.65 0.65 0,69 1.2