RU2708882C1 - Low-temperature grease (versions) - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to lubricants and more specifically to grease lubricants used in friction assemblies of different machines or mechanisms operated in extremely low temperatures. Low-temperature grease contains a base – acetyltributylcitrate and a thickener – cellulose acetobutyrate with the following ratio of components, wt%: cellulose acetobutyrate – 3–20, acetyltributylcitrate – the rest. According to another version of implementation of invention low-temperature grease includes base – acetyltributylcitrate, thickener – cellulose acetobutyrate and antifriction additive – material powder with Mohs hardness from 0.5 to 2.0 at following ratio of components, wt%: cellulose acetobutyrate – 3–20, antifriction additive – 3–30, acetyltributylcitrate – rest. As said antifriction additive can be used boron nitride, or graphite, or fluoroplastic, or molybdenum disulphide.

EFFECT: wider range of use of grease in range from -80 to +200 °C.

3 cl, 1 tbl, 15 ex

Description

The invention relates to the field of lubricants, and, more specifically, to greases used in friction units of various machines or mechanisms operated in extremely low temperatures.

A grease is known comprising at least two essential components — at least an ester oil and a hydrogenated anionic block copolymer comprising a unit with a controlled distribution of units, together with other optional components. The ester oil may be acetyl tributyl citrate or cellulose acetate butyrate. The block copolymer is formed from monoalkenyl and a conjugated diene. The block copolymer was subjected to selective hydrogenation, and it includes a block A from a monoalkenylarene homopolymer and a block B with a controlled distribution of units in the form of a mid block formed from monoalkenylarene and a conjugated diene (see RF patent 2406740 C2, published on December 20, 2010, class IPC C08L 53/02, C08K 5/10).

Since the softening temperature of the gel is 43-90 ° C, the resulting lubricant can be used only at high temperatures.

Also known is a lubricant comprising a solution or dispersion of finely divided cellulose butyrate acetate with sizes less than 30 microns, butyrate content from 20 to 60% May, calculated on the equivalent of polymer hydroxyl, and a number average molecular weight of 5000 to 50,000, in a polar organic solvent with a polymer ratio and a solvent of 1: 1 to 1:10 and a hydrocarbon fluid with a cellulose butyrate acetate content of 0.05-5% in May. from the composition. Additives that lower the pour point - polymers and copolymers of alkyl methacrylates, alkyl acrylates, copolymers of dialkyl fumarate and vinyl acetate, copolymers of alpha-olefins, as well as alpha-olefins and styrene and / or alkyl styrene, alkyl naphthalenes, etc. can be added to the lubricant composition (see, application WO 2014/004507 A1, class IPC С10М 145/40, C10L 1/198, C10L 10/08, C10N 30/06, C10N 40/25, publ. 03.01.2014).

This allows you to improve the low-temperature properties of the lubricant, but it is not used at extremely low temperatures. In addition, the flash point of the obtained composition does not exceed 130 ° C.

Also known is a low-temperature cellulose-based grease, including a cellulose-based thickener — hydroxyethyl cellulose, water, glycerol base, a lubricant, an anticorrosive additive, a preservative, antifoam, dispersant and other additives. The water content in the lubricant is 40-60% in May. (see, patent KR101724582, class IPC C10M 119/20, C10M 169/06, publ. 10.04.3017).

The resulting grease can be used at low temperatures, however, the temperature range of its use is quite narrow and does not allow the lubricant to be operated at extremely low temperatures: the pour point of the grease according to the examples given does not fall below -35 ° C, while the upper limit at which you can use this grease does not exceed 100 ° C - the boiling point of the water included in its composition. In addition, the disadvantages of the known solutions include the fact that water-based lubricant can cause corrosion, will be worse stored. To reduce these shortcomings, an anti-corrosion additive and a preservative are added to the lubricant, and anti-foaming agent is added to reduce the foaming caused by the introduction of surface-active additives into the water. However, they, increasing the cost of lubricant and complicating its composition, do not completely avoid the problems described above.

Known lubricant for the combination of essential features and technical result adopted as the closest analogue of the invention (prototype).

The objective of the invention is to obtain a non-corrosive grease with an extended temperature range of application, allowing its operation in extremely low temperatures.

The problem is solved in that the low-temperature grease, including a base and a thickener, contains cellulose acetate butyrate as a thickener, and acetyl tributyl citrate as a base in the following ratio, wt.%:

cellulose acetate butyrate 3-20, acetyl tributyl citrate rest.

According to another embodiment of the invention, the low-temperature grease, including a base, a thickener and an anti-friction additive, contains cellulose acetate butyrate as a thickener, acetyl tributyl citrate as a base, and a material powder with Mohs hardness from 0.5 to 2.0 as the anti-friction additive in the following ratio of components % wt .:

cellulose acetate butyrate 3-20, anti-friction additive 3-30, acetyl tributyl citrate rest.

Boron nitride or graphite, or fluoroplast, or molybdenum disulfide can be used as the specified anti-friction additive.

According to the invention, acetyl tributyl citrate is used as the basis for the possibility of using grease up to an extremely low temperature (-80 ° C), cellulose acetate is used as a cellulose thickener, and powder of any material with a Mohs hardness of 0.5 to 2.0, for example, graphite (Mohs hardness 0.5-1.5), fluoroplastic (1.4-1.6), talc (1.0), molybdenum disulfide (1.0-1.5), tungsten disulfide (0.5-0.75), boron nitride (1.5-2.0 ) or other compounds, or mixtures thereof. The lower temperature limit for lubricant use is due to the crystallization of acetyl tributyl citrate, and the upper one is due to the dissolution of the thickener in the base, leading to the loss of viscoplasticity by the lubricant (80-120 ° C, depending on the concentration of the thickener) - in the case of grease without a powder antifriction additive, or the flash point of the base ( 204 ° C) - in the case of using an anti-friction additive.

The technical result that can be obtained from the use of the invention is to expand the temperature range of the use of greases in the range (-80 ° C) ÷ (+ 200 ° C).

The following examples illustrate the proposed technical solution. As these, systems with different contents of a thickener and a powdery antifriction additive are considered. A characteristic of greases is their tensile strength: the higher its level, the greater the effective viscosity of the grease and the higher the grease is designed for. The antiwear activity of lubricants is expressed in friction and wear coefficients measured using a ball-plate friction pair (ball diameter 6.35 mm, steel grade 440С) at a linear counterbody velocity of 0.15 m / s and a friction force of 30 N. The values were measured at 25 ° C with relative an error of 5%. When using a clean base for lubrication, the coefficients of friction and wear are 0.109 and 23.5 × 10 ^-5 , respectively.

Low-temperature grease can be prepared with different thickener contents: increasing its concentration leads to an increase in the lubricant to a certain limit of strength, but contributes to an increase in friction and wear (Examples 1-3). An anti-friction additive such as boron nitride (Examples 4-8), graphite (Examples 9-11), fluoroplastic (Examples 12-14) or molybdenum disulfide (Example 15) can be added to the grease. The addition of a small amount of additive leads to a decrease in the tensile strength of the lubricant and an improvement in its anti-wear activity, while a high concentration of the additive causes an increase in the tensile strength, but increases wear; anti-friction additive slightly increases the temperature of crystallization and flash of lubricant. In all cases, the use of grease leads to significantly less wear compared with the use of a clean base for lubrication, but slightly increases the coefficient of friction.

Example 1

To obtain a low-temperature grease, 7 g of cellulose acetate butyrate is placed in 93 g of acetyl tributyl citrate, the mixture is heated with stirring to 160 ° C and held until the cellulose acetate butyrate is completely dissolved. After that, the heating is stopped and the system is allowed to cool, which leads to the formation of grease with the characteristics presented in the table.

Example 2

A low-temperature grease is obtained analogously to the method described in example 1, but using 10 g of cellulose acetate butyrate and 90 g of acetyl tributyl citrate. The lubricant characteristics are presented in the table.

Example 3

A low-temperature grease is obtained analogously to the method described in example 1, but 12 g of cellulose acetate butyrate and 88 g of acetyl tributyl citrate are used. The lubricant characteristics are presented in the table.

Example 4

To obtain a low-temperature grease, 10 g of cellulose acetate butyrate is placed in 87 g of acetyl tributyl citrate, the mixture is heated with stirring to 160 ° C, the cellulose acetate is completely dissolved, 3 g of boron nitride powder with hexagonal crystal structure (Mohs hardness 1.7) is added and mixed again . After that, the heating is stopped and the system is allowed to cool, which leads to the formation of grease with the characteristics presented in the table.

Example 5

A low-temperature grease is obtained analogously to the method described in example 4, but using 5 g of boron nitride and 85 g of acetyl tributyl citrate. The lubricant characteristics are presented in the table.

Example 6

A low-temperature grease is obtained analogously to the method described in example 4, but using 10 g of boron nitride and 80 g of acetyl tributyl citrate. The lubricant characteristics are presented in the table.

Example 7

A low-temperature grease is obtained analogously to the method described in example 4, but 20 g of boron nitride and 70 g of acetyl tributyl citrate are used. The lubricant characteristics are presented in the table.

Example 8

A low-temperature grease is obtained analogously to the method described in example 4, but 30 g of boron nitride and 60 g of acetyl tributyl citrate are used. The lubricant characteristics are presented in the table.

Example 9

To obtain a low-temperature grease, 10 g of cellulose acetate butyrate is placed in 80 g of acetyl tributyl citrate, the mixture is heated with stirring to 160 ° C, kept until the cellulose acetate butyrate is completely dissolved, 10 g of graphite powder is added (Mohs hardness 0.7) and mixed again. After that, the heating is stopped and the system is allowed to cool, which leads to the formation of grease with the characteristics presented in the table.

Example 10

A low-temperature grease is obtained analogously to the method described in example 9, but 20 g of graphite and 70 g of acetyl tributyl citrate are used. The lubricant characteristics are presented in the table.

Example 11

A low-temperature grease is obtained analogously to the method described in example 9, but 30 g of graphite and 60 g of acetyl tributyl citrate are used. The lubricant characteristics are presented in the table.

Example 12

To obtain a low-temperature grease, 10 g of cellulose acetate butyrate is placed in 80 g of acetyl tributyl citrate, the mixture is heated with stirring to 160 ° C, kept until the cellulose acetate butyrate is completely dissolved, 10 g of fluoroplastic powder is added (Mohs hardness 1.5) and mixed again. After that, the heating is stopped and the system is allowed to cool, which leads to the formation of grease with the characteristics presented in the table.

Example 13

A low-temperature grease is obtained analogously to the method described in example 12, but 20 g of fluoroplastic and 70 g of acetyl tributyl citrate are used. The lubricant characteristics are presented in the table.

Example 14

A low-temperature grease is obtained analogously to the method described in example 12, but 30 g of fluoroplastic and 60 g of acetyl tributyl citrate are used. The lubricant characteristics are presented in the table.

Example 15

To obtain a low-temperature grease, 10 g of cellulose acetate butyrate is placed in 70 g of acetyl tributyl citrate, the mixture is heated with stirring to 160 ° С, the cellulose acetate is completely dissolved, 20 g of molybdenum disulfide powder (Mohs hardness 1.3) is added and mixed again. After that, the heating is stopped and the system is allowed to cool, which leads to the formation of grease with the characteristics presented in the table.

Claims (5)

1. Low-temperature grease, including a base and a thickener, characterized in that it contains cellulose acetate butyrate as a thickener, and acetyl tributyl citrate as a base in the following ratio, wt.%: cellulose acetate butyrate 3-20 acetyl tributyl citrate rest 2. Low-temperature grease, including a base, a thickener and an anti-friction additive, characterized in that it contains cellulose acetate butyrate as a thickener, acetyl tributyl citrate as a base, and a material powder with Mohs hardness from 0.5 to 2.0 as the anti-friction additive in the following the ratio of components,% wt .: cellulose acetate butyrate 3-20 anti-friction additive 3-30 acetyl tributyl citrate rest 3. The lubricant according to claim 2, characterized in that boron nitride, or graphite, or fluoroplast, or molybdenum disulfide is used as the specified anti-friction additive.