RU2028373C1 - Hydraulic liquid - Google Patents

Abstract

FIELD: special technical liquids. SUBSTANCE: hydraulic liquid has, wt. -% : polyhydroxyalkylene thickening agent 10-30; polyatomic alcohol 20-55; benzotriazole 0.1-1.0; salt of monocarboxylic aliphatic acid-C₇-C₁₃ or a mixture of acids and amine taken from the group containing alkyl-(C₄-C₁₀)-amine, , dialkyl-(C₂-C₅)-amine, alkanol-(C₄-C₁₀)-amine, alkylene-(C₄-C₈)-diamine, morpholine, N-alkyl-(C₁-C₂)-morpholine, mixture of amines 2-7; component containing phosphate ion 0.5-1.5; morpholine or N-methylmorpholine 0.2-1.0; froth breaker 0.001-0.1, and water - up to 100. Source of thickening agent: compound with mol. mass 3000-20000 taken from the group containing polyethylene glycol, polyhydroxyethylated glycerol, block-copolymer of ethylene and propylene oxides. Source of polyatomic alcohol: tri- or diatomic alcohol or their oligohydroxyalkylene derivatives with mol. mass = 500, or their mixture. EFFECT: enhanced quality of liquid. 3 cl, 2 tbl

Description

 The invention relates to compositions of flammable hydraulic fluids. The fluid can be used in hydraulic systems and hydrodynamic gears of industrial equipment operated in conditions of increased fire hazard.

 Water-based hydraulic fluids have a number of requirements. Since traditional liquids based on petroleum oils, they must have good viscosity-temperature, lubricating, anti-corrosion, anti-foam and other properties. In addition, special requirements are imposed on aqueous liquids, in particular, they must have good deaeration properties [1, p. 336, tab. 99, p. 8], [2, sect. 2.4.1.3 and 5.6].

 According to international standards, the proposed fluid is classified as a hydraulic flame-retardant fluid of class HFC, because it contains 30-45% water, a water-soluble polymer, functional additives and other components. Various compounds are known that belong to this class.

 The hydraulic fluid [3] contains glycerin, polyalkylene glycol, aliphatic amine acetates, benzotriazole, components containing benzoate ion and phosphate ion, triethanolamine, ethyl n-aminophenol ether, antifoaming agent, water, has improved antiwear properties, but has low anti-seize properties teasing index 22.8 according to GOST 9490-75).

The hydraulic fluid [4] consists of polyoxyalkylated polyhydric alcohols, a fraction of synthetic C ₇ -C ₉ fatty acids, anthranilic acid, benzotriazole, triethanolamine and water. The liquid has the necessary set of operational characteristics and is distinguished by excellent anti-seize properties (scoring index ≈ 40). Its disadvantage is the increased corrosive effect on ferrous metals in the liquid itself and in its vapor under conditions close to real (60 ^° C, 168 h).

The closest in technical essence to the claimed invention is a liquid (prototype) [5] containing the following components, wt. %: Polyethylene glycol 18-25 Glycerin 33-40 Triethanolamine 1.0-4.0 Benzotriazole 0.5-3.5 Sodium benzoate 0.5-3.0
Acetates of aliphatic amines fr. C ₁₇ -C ₂₁ 0.01-0.25 Anti-foaming agent 0.005-0.05
1,5-dioxi-4,8-diamino
anthraquinone-2-sulfo
acid,
or triethanolamine
salt 2-bromo-1-amino (n-
tolylamino-2-sulfo
acid) -anthraquinone,
or 3,6-diphenyldiamine
naphthophenazine-2,7- disul-
acid
or 1,4-bis (n-butylphenyl-amino) -anthropyridone 0.005-0.5 Water Up to 100
This fluid, also described in [6] under the name PGV, is characterized by the most balanced set of properties: low temperature, viscosity-temperature, anti-corrosion, anti-wear, anti-seize (seizure index 32) and others, i.e. to the greatest extent satisfies the modern requirements of universality. However, it, as the described compounds are characterized by a significant drawback that limits its practical application. Unsatisfactory deaeration properties of PGV determine an increased tendency to cavitation in the hydraulic system and failure of its elements - valves, piping switchgears due to aerosol wear. This determines the large losses of hydraulic fluid during the destruction of pipelines and the need for frequent repairs. Furthermore sharp deterioration in the air-liquid separation observed at temperatures below 10 ^° C results in a sharp increase in the coefficient of compressibility and its disrupting the whole hydro.

 The purpose of the invention is the improvement of the deaeration properties of a flame-retardant water-containing hydraulic fluid.

NR³ NH₂-R₄-NH₂
и карбоновой кислоты или
смеси кислот
формулы RCOOH, где R₁R₄ -
алифатические радикалы:
R₁-C₄-C₁₀; R₂-C₂-C₅, R₃-C₁-C₂
или Н, R₄-С₄-С₈; R - алифати-
ческие радикал линейного строения С₇-С₁₃ 2-7
Морфолин или N-метил- морфолин 0,2-1,0
Компонент, содержащий фосфат-ион 0,5-1,5 Вода До 100
При изготовлении образцов жидкости использовались компоненты: лапрол 3003-2-60 по ТУ 6-05-221-839-85 (полиоксиалкилированный глицерин, содержащий 60% звеньев этиленоксида и 40% звеньев пропиленоксида мол.м. 3000), гидропол-200 по ТУ 6-14-41-75 (статистический сополимер этиленоксида и пропиленоксида мол.м. 10000), полиэтиленгликоль мол.м. 20000 - препарат для хроматографии фирмы "Berlin Merk", полиэтиленгликоль ПЭГ-35 по ТУ 6-14-719-76 (мол. м. 1500), этиленгликоль по ГОСТ 10164-75, триэтиленгликоль по ТУ 6-01-864-78, 1,2-пропиленгликоль по ТУ 6-09-2434-72, глицерин по ГОСТ 6259-75, лапрол 503 по ТУ 6-05-1679-83 (олигооксипропилированный глицерин мол.м. 500), н-бутиламин по ТУ 6-09-07-842-77, диэтиламин по ТУ 6-09-68-79, моноэтаноламин по ТУ 6-09-2447-77, дибутиламин по ТУ 6-09-1802-77, морфолин по ТУ 6-09-649-76, N-метил-морфолин по ТУ 6-09-1575-78, гексаметилендиамин по ТУ 6-09-36-73, каприловая (октановая) кислота по ТУ 6-09-529-75, лауриновая (додекановая) кислота по ТУ 6-09-612-76, синтетические жирные кислоты (СЖК) фр. С₇-С₉ и С₁₀-С₁₃ по ГОСТ 25239-78, бензотриазол по ТУ 6-09-1291-75, Na₂HPO₄ по ГОСТ 11773-76 и К₃РО₄ по ГОСТ 10075-75 (компоненты, содержащие фосфат-ион), дипроксамин 157 по ТУ 6-14-614-76 (пеногаситель).This goal is achieved by the fact that in a liquid containing water, a polyoxyalkylene thickener, tri- or dihydric alcohols or their oligooxyalkylene derivatives or their mixture, benzotriazole and antifoam, an aliphatic amine salt or a mixture of amines with carboxylic acid or a mixture of acids, morpholine or N- is added methyl morpholine and a component containing a phosphate ion in the following ratio of components, wt.%:
Polyoxyalkylene
thickener mol.m. 3000-20000 10-30
Tri- or diatomic
alcohols, or their oligooxy-
alkylene derivatives
pier m. ≅ 500, or a mixture of the listed products 20-55 Benzotriazole 0.1-1.0 Defoamer 0.001-0.1
Aliphatic Amine Salt
or a mixture of amines of one of
the following formulas R ₁ NH ₂ ,
R ₂ R ₂ NH, HO-R ₁ NH ₂ ,
O

NR ³ NH ₂ -R ₄ -NH ₂
and carboxylic acid or
acid mixtures
formulas RCOOH, where R ₁ R ₄ -
aliphatic radicals:
R ₁ -C ₄ -C ₁₀ ; R ₂ -C ₂ -C ₅ , R ₃ -C ₁ -C ₂
or H, R ₄ -C ₄ -C ₈ ; R is aliphatic
chemical radical of a linear structure C ₇ -C ₁₃ 2-7
Morpholine or N-methyl-morpholine 0.2-1.0
Component containing phosphate ion 0.5-1.5 Water Up to 100
In the manufacture of liquid samples, the following components were used: laprol 3003-2-60 according to TU 6-05-221-839-85 (polyoxyalkylated glycerin containing 60% units of ethylene oxide and 40% units of propylene oxide mol.m 3000), hydro-200 according to TU 6-14-41-75 (statistical copolymer of ethylene oxide and propylene oxide mol.m. 10000), polyethylene glycol mol.m. 20000 - preparation for chromatography of the company "Berlin Merk", polyethylene glycol PEG-35 according to TU 6-14-719-76 (mol.m 1500), ethylene glycol according to GOST 10164-75, triethylene glycol according to TU 6-01-864-78, 1,2-propylene glycol according to TU 6-09-2434-72, glycerin according to GOST 6259-75, laprol 503 according to TU 6-05-1679-83 (oligooxypropylated glycerin mol.m. 500), n-butylamine according to TU 6- 09-07-842-77, diethylamine according to TU 6-09-68-79, monoethanolamine according to TU 6-09-2447-77, dibutylamine according to TU 6-09-1802-77, morpholine according to TU 6-09-649- 76, N-methyl-morpholine according to TU 6-09-1575-78, hexamethylenediamine according to TU 6-09-36-73, caprylic (octanoic acid) according to TU 6-09-529-75, lauric (dodecanoic acid) according to TU 6-0 9-612-76, synthetic fatty acids (FFA) fr. C ₇ -C ₉ and C ₁₀ -C ₁₃ according to GOST 25239-78, benzotriazole according to TU 6-09-1291-75, Na ₂ HPO ₄ according to GOST 11773-76 and K ₃ PO ₄ according to GOST 10075-75 (components, containing phosphate ion), diproxamine 157 according to TU 6-14-614-76 (antifoam).

Aliphatic amine salt of a carboxylic acid was prepared by gradual addition of the amine with agitation to the equivalent amount of acid such that the temperature of the reaction mixture did not exceed 60 ° ^C.

 Table 1 shows the compositions of hydraulic fluids according to the invention, the data of which show that samples 2-4 and 9-16 of optimal composition have very good deaeration properties. With a decrease in the concentration of the salt of amines and acids below 2% (sample 5) and with an increase above 7 (sample 1), the deaeration time increases. The exclusion of this additive from the liquid composition degrades the deaeration properties of the samples (6, 7, 8) to the level of the prototype. Thus, an additive known as a corrosion inhibitor [7, pos. 623, 637, 643, 670, 672-675, 677-680], exhibits new properties, improves the deaeration ability of HFC class liquids. In addition, additives have not yet been proposed for mineral oils or aqueous liquids that reduce their deaeration time.

 Comparative characteristics of fluid samples according to the alleged invention and a known composition by A. with. N 591493 is given in table 2, from the data of which it follows that the hydraulic fluid of the proposed composition (examples 2, 3, 4) exceeds the fluid of known composition in deaeration properties, and is not inferior to it in anti-corrosion, viscosity-temperature and anti-foam properties. The proposed fluid also has the best lubricating properties.

Claims (2)

1. HYDRAULIC LIQUID, containing water, polyoxyalkylene thickener, polyhydric alcohol, benzotriazole and antifoam, characterized in that the liquid as a thickener contains a compound of mol.m. 3000 - 20000, selected from the group consisting of polyethylene glycol, polyoxyethylated glycerin, a block copolymer of ethylene and propylene oxides, as a polyhydric alcohol, a tri- or dihydric alcohol, or their oligooxyalkylene derivatives, mol.m. ≅ 500, or a mixture thereof and additionally a salt of a monocarboxylic aliphatic acid C ₇ - C _{1 3} or a mixture of acids and an amine selected from the group consisting of alkyl (C ₄ - C _{1 0} ) amine, dialkyl (C ₂ - C ₅ ) amine, alkanol- (C ₄ - C _{1 0} ) amine, alkylene (C ₄ - C ₈ ) diamine, morpholine, N-alkyl (C ₁ - C ₂ ) morpholine, a mixture of amines, a component containing phosphate ion and morpholine or N α-methylmorpholine in the following ratio, wt.%:
Specified polyoxyalkylene thickener - 10 - 30
Specified polyhydric alcohol - 20 - 55
Benzotriazole - 0.1 - 1.0
The specified salt of carboxylic acid and amine - 2 - 7
Component containing phosphate ion - 0.5 - 1.5
Morpholine or N-methylmorpholine - 0.2 - 1.0
Defoamer - 0.001 - 0.1
Water - Up to 100
2. The liquid according to claim 1, characterized in that as a thickener contains polyoxyethylene glycerol containing 60% of ethylene oxide units and 40% of propylene oxide units having a mol.m. 3000, or a static block of polymers of ethylene and propylene mol.m. 10,000.  3. The liquid according to claims 1 and 2, characterized in that it contains block copolymers of ethylene and propylene based on ethylene diamine-diproxamine-157 as an antifoam.

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