RU2569895C1 - Synthetic oil composition for heat-stressed gas-turbine engines - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to a synthetic oil composition for heat-stressed gas-turbine engines, which contains a fluorosiloxane liquid with a trifluoropropyl radical and an organosilicon additive, which is an iron capronate solution in oligodimethyl-(methyl-trifluoropropyl)-siloxane liquid with iron capronate content of 0.35-0.6 wt %, with overall iron content in the composition of 0.01-0.06 wt %.

EFFECT: producing a synthetic oil composition having stable properties in a wide temperature range, and low cost thereof.

Description

The invention relates to compositions of high temperature oils with high performance properties in a wide temperature range, used for lubrication of heat-stressed gas turbine engines.

Known high temperature grease according to copyright certificate No. 308058, class. C10M 105/76.

The grease is designed to operate under friction-rolling conditions at high specific loads. This known high temperature grease is based on ethyl polysiloxane fluid and is thickened with soot; the lubricant may additionally contain various antioxidant additives (phenyl-alpha-naphthylamine, diphenylamine, ionol). However, it has thermal oxidative stability only up to 200 ° C.

A disadvantage of the known composition is the low temperature properties of the oil.

Closest to the claimed composition is known composition of high temperature oil based on fluorosiloxane liquid according to the patent of the Russian Federation No. 2452765, class. C10M 107/50, C10N 30/08.

The oil composition contains a fluorosiloxane liquid containing a Y-trifluoropropyl radical (grades 161-44M), with a viscosity at 100 ° C of at least 9.0 mm ² / s, a density of 1,090-1,200 g / cm ³ and a flash point of at least 280 ° C , and Inoxil FC bimetal organosilicon additive in certain ratios providing a synergistic effect. The oil has high performance properties, has thermo-oxidative stability at temperatures above 200 ° C, namely at temperatures up to 280 ° C.

The disadvantages of the known composition are the low temperature properties of the oil, as well as the high cost of the components.

The aim of the invention is the elimination of these disadvantages when creating new compositions of synthetic oil. The objective of the invention is to create a synthetic oil composition having certain properties to achieve the following technical result: reducing the cost of the synthetic oil composition, and at the same time having stable properties in a wide temperature range.

To achieve this goal, the claimed Composition of synthetic oil for heat-stressed gas turbine engines containing fluorosiloxane fluid with trifluoropropyl radical and an organosilicon additive; which is a solution of iron capronate in oligodimethyl- (methyl-trifluoropropyl) -siloxane liquid with an iron capronate content of 0.35-0.6% by mass, with iron content of 0.01-0.06% by mass in the composition as a whole.

As the fluorosiloxane liquid, for example, a fluorosiloxane composition with a trifluoropropyl radical, commercially available since 1967, in particular under the name “Liquid 161-44”, is used.

To create a synthetic oil composition for heat-stressed gas turbine engines according to the invention, oligodimethyl- (methyl-trifluoropropyl) -siloxane liquid based on a solution of iron capronate is used. At the same time, the use of iron capronate in the composition provides the best properties of the oil, without changing the lubricating properties, which, in particular, provides increased stability of the lubricant under prolonged loads, i.e. at high temperatures, retains its properties for a long time when used in standard operating conditions. The composition of the bimetal organosilicon additive, for example, Inoxil FC, includes iron capronate (xylene solution); copper acetylacetonate (xylene solution) and liquid 161-44M. During specially conducted tests of various lubricant compositions, the optimal chemical composition was experimentally established, in which only fluorosiloxane liquid with a trifluoropropyl radical and iron capronate are present. Thus, the best liquid composition was found that has thermo-oxidative stability at temperatures up to 300 ° C, and moreover, due to the exclusion of a number of components, the cost of the final composition is reduced.

The use of iron capronate as an organosilicon additive in the inventive composition makes it possible to achieve the claimed technical results, namely, reducing the cost of a synthetic oil composition, and at the same time having highly stable properties in a wide temperature range.

Industrial application

Synthetic oil for heat-stressed gas turbine engines is an indispensable condition for the correct and effective functioning of any temperature-loaded unit and assembly. The high quality of the claimed lubricant composition and its low cost allows it to be manufactured on an industrial scale, ensuring a consistently high quality of the finished product.

Claims (1)

A synthetic oil composition for heat-stressed gas turbine engines containing a fluorosiloxane liquid with a trifluoropropyl radical and an organosilicon additive, characterized in that it is a solution of iron capronate in oligodimethyl- (methyl-trifluoropropyl) -siloxane liquid containing 0.35-0.6% iron capronate masses, with the iron content in the composition as a whole of 0.01-0.06% of the mass.