RU2732292C1 - Preservation lubricant - Google Patents

Abstract

FIELD: chemistry.SUBSTANCE: invention relates to metal preservation and can be used for protection of materials of machine building, instrument making and so forth from corrosion and damage by microorganisms (microscopic fungi and bacteria). Described is a lubricant-based preservation lubricant comprising industrial oil I-20A - 36.5 ± 3.0 wt. %, corrosion inhibitor AKOR-1 5.0 ± 0.5 % of weight, viscosity additive Vinipol VB-2 - 3.5 ± 1.0 wt. %, jet fuel - aircraft fuel TS-1 - up to 100 % of weight, characterized by that in order to increase stability, a mixture of essential oils of citral and eugenol is added in volume ratio of 1:1, with the following ratio of components, wt. %: a mixture of essential oils of citral and eugenol in volume ratio of 1:1 - 5.0; lubricant including industrial oil, jet fuel, viscosity additive and corrosion inhibitor - 95.0.EFFECT: technical result is creation of a preservative lubricant, which provides complex protection of metal from corrosion and damage by microorganisms, which is stored.1 cl, 5 tbl, 1 dwg

Description

The invention relates to the preservation of metals and can be used to protect materials for mechanical engineering, instrument making, etc. from corrosion and damage by microorganisms (microscopic fungi and bacteria).

Known conservation grease (RU, patent for invention No. 2621186. Preservation grease for mechanisms and devices, priority No. 2016129345 dated 07.19.2016 (discontinued), bull. No. 16 dated 01.06.2017), containing instrument oil MVP, additive MNI-7 and as a thickener contains sediment formed on the walls of pipelines during oil transportation.

The disadvantages of this grease is the low lower limit of the pour point, which does not meet the requirements for operation in arctic conditions.

Known conservation grease PVK (cannon) (GOST 199537-83), containing petroleum oil, thickened with petrolatum and ceresin, and also containing an anti-corrosion additive (Fuels, lubricants, technical fluids. Range and application. Handbook. Ed. By V.M. . Shkolnikova, 1999, p. 348).

The disadvantages of PVCL grease are the use of expensive and scarce components - petrolatum and ceresin, as well as a low dropping point and a narrow temperature range of application.

Known conservation grease GOI-54p (GOST 3276-89), containing petroleum oil, thickened with ceresin and containing an antioxidant additive (Fuels, lubricants, technical fluids. Assortment and application. Handbook. Edited by VM Shkolnikov, 1999 ., p. 327).

The disadvantages of this grease are the low dropping point, the lower limit of the pour point does not meet the requirements of operation in arctic conditions. The GOI-54p grease is based on a low-viscosity oil thickened with ceresin, which is less hydrophilic. An anti-corrosion additive enhances the anti-corrosion properties of the oil.

All of the lubricants discussed above are not resistant to microorganisms. Earlier studies of the resistance of structural materials to the effects of microorganisms showed that when a lubricant is contaminated with microorganisms, the products of their metabolism are released, and the rate of corrosion processes increases by a factor of 2-3 (Table 1).

Known conservation lubricant (RU, copyright certificate No. 2029779. Conservation lubricant, priority No. 5057142/04 dated 07/30/1992 (not valid), publ. 02/27/1995) The basis is taken working conservation gun oil RZh (GOST 9811-61 ), used in the storage of products and a mixture of eugenol and citral essential oils was introduced into its composition in a volume ratio of 1: 1 in an amount of 0.5, 1, 3, 5, 10% by weight of the composition by mixing at room temperature.

Composition of working and conservation oil for rifle RZh (GOST 9811-61),% by weight:

- mineral oil (industrial oil I-20A) - 45 ± 5

- jet fuel (T-1 fuel) - 50 ± 5

- thickening additive VINIPOL - 3.5 ± 1.5

- additive MNI-3 - 1.25 ± 0.25

The disadvantage of this prototype is that the working and conservation gun oil RZh (GOST 9811-61) was produced by OJSC "AZMOL" (Ukraine, Berdyansk) and initially it included a protective additive MNI-3, the production of which has now been discontinued.

The closest analogue of the claimed invention, selected as a prototype, is a working conservation gun oil RZh (TU 38.1011315-90), which, unlike previously produced RZh (GOST 9811-61), is produced on the basis of a mixture of industrial oil I-20A and reactive fuel TS-1, which provides it with a low pour point, it also contains an additive to increase the viscosity of VINIPOL VB-2 and the corrosion inhibitor AKOR-1. The component composition of the working and conservation oil of rifle RZh is presented in table. 2.

To test the biological stability of the working and conservation oil of gun RZh (TU 38.1011315-90) to the effects of molds in accordance with GOST 9.052-88. ESZKS Oils and Lubricants. Laboratory test method for resistance to mold fungi ”method 3 laboratory tests were carried out.

An oil sample was introduced into a test tube with a 3 cm ³ suspension of fungal spores in a medium with an additional source of mineral nutrition (medium No. 5 according to GOST 9.052-88, hereinafter medium), laid in an inclined position at an angle of 30 ° and kept under conditions optimal for fungal growth ... Upon completion of the tests, the appearance of the oil - aqueous mineral medium was recorded by examining it with the naked eye and using a magnifying glass at x5 magnification. The oil is considered resistant to the effects of mold fungi if there is no development of fungi on the sample (there is no film at the medium-oil interface, the medium in test tubes is transparent and not pigmented, there is no sediment). Additionally, to identify the products of fungal growth, when examining the samples, microscopic examination (at a magnification of x320) was carried out of objects formed in an oil-water-mineral medium.

The test conditions are as follows: duration of 10 days with intermediate inspection after 5 and 7 days; temperature + 29 ± 2 ° С. The following types of molds were used for the tests: Aspergillus niger van Tieghem; Scopulariopsis brevicaulis (Sacc.) Bainier; Penicillium chrysogenum Thorn; Penicillium cyclopium Westling; Paecilomuces varioti Bainier.

It was found that for a sample of operating and conservation oil of rifle RZh already in the initial testing period (less than one day later) a film-like interfacial layer is observed at the oil-medium interface (Table 3).

Such dynamics of the process indicates that the formation of the interphase layer is mainly associated with non-biological processes. Inspection with x5 magnification did not reveal other characteristic external signs of the development of fungi in oil - turbidity and pigmentation of the medium, the presence of sediment in it. Microscopic examination (x320 magnification) of the film-like layer from the interface between the phases of the RZ oil-medium made it possible to detect in it a developed mycelium of fungi (Fig. 1).

Thus, we can conclude that the operating and conservation gun oil RZh contains substances that can ensure the development of fungi in the presence of mineral contamination. A sample of working and conservation gun oil RZh (TU 38.1011315-90) is not resistant to molds under conditions simulating mineral contamination according to GOST 9.052-88 method 3.

The technical problem to be solved by the invention is the creation of a conservation lubricant that provides comprehensive protection of metal against corrosion and damage by microorganisms in storage.

The technical result obtained when using the technical solution is the protection of metals by applying modified oil on them.

The specified technical result is achieved by the fact that a mixture of essential oils of citral and eugenol in a volume ratio of 1: 1 in an amount of 5% by weight is added to the composition of the working conservation oil of gun RZh (TU 38.1011315-90):

- a mixture of essential oils of citral and eugenol in their volumetric ratio 1: 1-5.0;

- a lubricant containing industrial oil, jet fuel, viscosity improver and corrosion inhibitor - 95.0.

To clarify the applicability of essential oils in a lubricant, laboratory studies were carried out:

1. Determination of the effect of essential oils and their mixtures in a 1: 1 ratio on the physical and chemical parameters of the lubricant.

In a lubricant modified with essential oils, the main physical and chemical parameters are determined: viscosity and acid number. The viscosity is determined using a viscometer in accordance with GOST 33-2000, and the acid number - by titration with alkali in accordance with GOST 32327-2013. The results are presented in table. 4. From table. 4 it follows that when citral and eugenol essential oils are introduced into the lubricant and they are combined in a 1: 1 ratio at a concentration of 5% by weight, the physicochemical indicators of the modified lubricant remain within the limits established by scientific and technical documentation.

2 Determination of the protective properties of the lubricant

The protective properties of a material modified with a mixture of essential oils are determined by the loss of metal mass after 70 hours of exposure in a 3% aqueous solution of sodium chloride of metal plates protected by a modified lubricant in (%) to the loss of metal mass protected by an unmodified lubricant. The protective properties of the modified lubricant are carried out on samples of different steels. For each test variant, 3 samples are used; the average value of three experiments is taken for the final result. The results are presented in table. 5. From table. 5 shows that the introduction of essential oils of citral and eugenol into the gun oil in a ratio of 1: 1 improves its anticorrosive properties.

The research results (Tables 4-5) showed that the introduction of essential oils of citral and eugenol in a ratio of 1: 1 at a concentration of 5% of the mass into the operating and conservation gun oil RZh gives the lubricant resistance to microorganisms, improves its anticorrosive properties without deteriorating physical -chemical indicators.

Thus, the proposed preservation lubricant can be recommended for preservation and protection against corrosion and microbiological damage to metals during storage.

Claims (1)

Preservation lubricant based on grease including industrial oil I-20A - 36.5 ± 3.0% by weight, corrosion inhibitor AKOR-1 - 5.0 ± 0.5% by weight, viscosity increasing additive Vinipol VB-2 - 3.5 ± 1.0% of the mass, jet fuel - aviation fuel TS-1 - up to 100% of the mass, characterized in that in order to increase stability, a mixture of citral and eugenol essential oils is added in their volumetric ratio of 1: 1 at the following ratio of components,% by weight: a mixture of essential oils of citral and eugenol in their volumetric ratio 1: 1 - 5.0; grease, including industrial oil, jet fuel, viscosity improver and corrosion inhibitor - 95.0.

Images