RU2126035C1 - Concentrate of working aqueous emulsion liquid - Google Patents

Abstract

FIELD: hydrosystems operating under fire hazardous conditions. SUBSTANCE: claimed concentrate comprises (wt %): 20-30 mineral oil; 22-30 C₁₂-C₁₈ fatty acid alkanolamides; 4-10 polyglycols; 0.5-3.0 oxyethylated alkyloxybenzene derivatives; 14-24 alkanol amines-boric acid reaction product; 1-5 alkylphosphoric acid; 0.05-0.15 benzotriazole; and the water balance. EFFECT: higher service properties, namely tribotechnical and anticorrosion properties and bioresistance of the working liquid. 3 cl, 4 tbl

Description

 The invention relates to the composition of a concentrate of aqueous emulsion working fluid, intended for use in the form of 2-3% aqueous emulsions as a working fluid for hydraulic systems of equipment operating in fire hazardous conditions, for example, hydraulic mine support systems.

 Known concentrates for the preparation of aqueous emulsions used as working fluids for hydraulic systems, as well as cutting fluids used in metalworking.

 Water-glycol fluids containing ethylene glycol, polyethylene glycol, water and anti-corrosion additives are known, for example (Reference Guide edited by A. M. Sukhotin "Non-combustible heat transfer fluids and hydraulic fluids", L., Chemistry, 1979, p. 288- 291).

 However, aqueous emulsions based on this concentrate do not possess sufficiently such operational properties as stability, anticorrosion, and tribotechnical characteristics. The biostability of such emulsions is also not high enough.

Closest to the invention is a coolant concentrate (RF patent N 1807724, C 10 M 173/00. 1995, Bull. N 8), containing (wt.%):
Mineral oil - 24-38
Fatty acid alkanolamides of fractions C12-C18 - 20-30
Polyglycols - 11-20
Boric acid - 2.2-4.9
Oxyethylated derivatives of alkyloxybenzene in the form of polyoxyethylated alkylphenol - 0.5-3.0
Phenylcarbinol - 2-6
Water - Else
Water emulsions based on this concentrate have rather high performance characteristics when used as cutting fluids, however, the low anticorrosion and tribotechnical properties of such emulsions do not allow their use as hydraulic working fluids.

 The objective of the invention is to provide a concentrate for the preparation of aqueous emulsion working fluids with higher performance, in particular anticorrosive and lubricating properties, as well as biostability.

This problem is solved due to the fact that the concentrate of a water-emulsion working fluid containing mineral oil, alkanolamides of fatty acids of fractions C ₁₂ -C ₁₈ , polyglycols, ethoxylated derivatives of alkyloxybenzene and water, additionally contains an anti-corrosion additive - a product of the interaction of alkanolamines with boric acid, alkylphosphoric acid and benzotriazole, in the following ratio, wt.%:
Mineral oil - 20-30
Fatty acid alkanolamides of fractions C ₁₂ -C ₁₈ - 22-30
Polyglycols - 4-10
Oxyethylated derivatives of alkyloxybenzene - 0.5-3.0
The product of the interaction of alkanolamines with boric acid - 14-25
Alkylphosphoric acid - 1-5
Benzotriazole - 0.05-0.15
Water - Else
As the fatty acid alkanolamides, the product of the interaction of oleic acid with diethanolamine at a temperature of 130-150 ^° C can be used. The products of the interaction of diethanolamine and crude fatty acids can also be used.

The product of the interaction of alkanolamines with boric acid is obtained by treating boric acid with alkanolamines at 95-105 ^o C. As alkanolamines it is advisable to use a mixture of mono - and diethanolamine with a content of the latter up to 10 wt.%. Triethanolamine and diethanolamine may also be used.

As mineral oil, naphthenic or naphthenic-paraffin oil with a viscosity at 50 ^° C. of 8-16 cSt, for example, industrial oil I-12A, is used.

 Used polyglycols are a product of the synthesis of ethylene oxide with a content of monoethylene glycol from 20 to 80 wt.%.

The concentrate of the proposed composition of the aqueous emulsion working fluid is obtained by mixing the components in devices with mechanical stirring, circulation and steam heating at 50-70 ^o C to obtain a homogeneous mass.

 Working liquids from the concentrate are prepared at the place of operation by mixing 2-3% (of the total volume, mixture) of the concentrate with water.

 To assess the operational characteristics of aqueous emulsions based on the proposed concentrate were prepared compositions presented in table. 1. Compositions 8 and 9 of the concentrate turned out to be unstable and delaminated; therefore, emulsions based on these compositions were not tested.

For testing, 1-3% water emulsions with a hardness of 4.6 mEq / L were prepared. Anticorrosion characteristics of emulsions prepared on the basis of the compositions given in table. 1, were evaluated by various methods using different materials. The test results are given in table. 2, indicate that the emulsion of compositions 1-7 significantly superior to the prototype in terms of corrosion properties. Tribological properties of 3% aqueous emulsions were evaluated on a friction machine "2070 SMT-1" according to the method developed in the IHD them. A.A. Skochinsky. Tribotechnical characteristics were determined on the following friction pairs: as rotating samples — rings made of ShKh-15 steel, and as stationary samples — disks made from steel ShKh-15 and brass L-63. Rotational speed n = 900 rpm. The measurement of the width of the wear groove was carried out using a reference microscope MPB-2. The wear resistance [P ₁ ] of the tribosystem was determined as the value of the specific load at which a fixed wear rate is realized. The extreme pressure properties of the tribosystem are expressed by a characteristic equal to the ratio of the increment of wear rate to the load difference, which is denoted as [AND ₃ ]. The antifriction characteristic of the tribosystem was evaluated by the value of the coefficient of friction [fl at load [P ₁ ].

 The test results are shown in table. 3, from which it follows that the proposed composition on tribological characteristics (antiwear, extreme pressure and antifriction) exceeds the prototype.

 Aqueous emulsions based on the proposed concentrate were also tested for resistance to bacteria damage by the Long-term-test method (Specification 6570 Daimler-Benz, pos. 10-15): 3% emulsions were infected with appropriate biocultures and their growth was monitored over 9 weeks. The assessment was made according to the number of cells per 1 ml of emulsion (cells / ml). The results are shown in table. 4 show that aqueous emulsions based on the proposed concentrate have significantly higher biostability compared to the prototype.

 The study of aqueous emulsions prepared from a concentrate of the proposed composition showed that the introduction of alkanolamines with boric acid, alkylphosphoric acid and benzotriazole into the concentrate results in a significant improvement in the anticorrosion properties of emulsions, while increasing their tribological properties and biostability.

Claims (2)

1. A concentrate of an aqueous emulsion working fluid containing mineral oil, alkanolamides of fatty acids of fractions C12 - C18, polyglycols, ethoxylated derivatives of alkyloxybenzene and water, characterized in that it additionally contains an anti-corrosion additive - a product of the interaction of alkanolamines with boric acid, alkylphosphoric acid and the following benzotriazole the ratio of components, wt.%:
Mineral oil - 20 - 30
Fatty alkanolamides of fractions C12 - C18 - 22 - 30
Polyglycols - 4 - 10
Oxyethylated derivatives of alkyloxybenzene - 0.5 - 3.0
The product of the interaction of alkanolamines with boric acid - 14 - 25
Alkylphosphoric acid - 1 - 5
Benzotriazole - 0.05 - 0.15
Water - Else
2. The concentrate according to claim 1, characterized in that the product of the interaction of oleic acid with diethanolamine is used as fatty acid alkanolamides.  3. The concentrate according to claim 1, characterized in that to obtain the product of the interaction of alkanoalamines with boric acid, a mixture of mono- and diethanolamine is used as alkanolamines with a content of the latter up to 10 wt.%.

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