CS263223B1 - Partial synthetic hydraulic oil - Google Patents

Abstract

Hydraulic oil base oil it consists of 10 to 95 3 wt. hydrogenovych of polymers with a mixture of 1-butenes and 2-butenes with unbounded the individual n-butenes and with a maximum of 3 wt. isobutylene and 5 to 90 wt. petroleum oil raffinate a contains refining additives, further anti-wear additives, antioxidants, lubricating additives and detergent additives.

Description

The invention relates to a partially synthetic hydraulic oil consisting of a base oil and refining additives.

Hydraulic transmissions in which fluids are used to transmit and regulate power under the laws of hydraulics are used where pressure multiplication is required or where accurate and reliable control is required. Fluids used as propellants must also act as lubricants, dissipate heat and protect internal parts of the hydraulic system from corrosion. In their quality parameters, that is to say the utility properties, they differ according to the design, performance and operating conditions of the hydraulic systems.

The basic criterion is the viscosity of the oil. When selecting the viscosity, it is necessary to take into account not only the basic factors influencing it (speed, load, temperature), but also the requirements of the individual parts of the hydraulic system, which differ in construction. Therefore, the ISO classification divides hydraulic oils according to kinematic visxosities measured at 40 ° G into eight types: 10, 15, 22, 32, 46, 68, 100 and 150 mm mm / s with a range of - 10%.

Oils used as fillings for hydraulic systems operating at high pressures over a wide temperature range, especially open-air systems, must have sufficient fluidity, pumpability even at the lowest operating temperatures to allow the pump to start, and at higher temperatures their viscosity must not drop below ensuring the lubrication function and volume efficiency of the hydrogenerate. Such oils must therefore have sufficiently high viscosity indices and low pour points, which can also be achieved by the addition of polymeric viscosity and depressant modifiers, mainly of the polymethacrylate type, but also, for example,

- 2,263,223 polyvinyl isoalkyl ether, with high shear stability. However, even the base oil from which the hydraulic oil is made must also have good rheological properties at low temperatures.

The low oil viscosity may not ensure perfect lubrication and abrasion suppression. Therefore, hydraulic oils mainly contain anti-abrasive additive, either. of the ash type, mainly zinc dialkyldithiophosphate with C 3 -C 8 alkyls, which additionally act as an oxidation and corrosion inhibitor or of an ashless type, e.g. nrvků.

Recently, there has been a tendency to equip high-quality hydraulic oils for certain types of hydraulic systems with detergent dispersion additives to ensure the cleanliness of the system with long-term oil fillings and to achieve free moisture binding. However, the addition of tensile substances must not impair the foaming and deemulsifying properties of the oil, which are also important properties of hydraulic oils. The foaming of hydraulic oils can be reduced by the addition of tin foaming agents such as polymethylsiloxane, polyvinylsiloxane and others, which, however, must not significantly impair air separation from the oil.

For the system to function properly and to achieve high efficiency, it is important that the propellant is as compressible as possible. This mainly depends on the content of dissolved air or other gases, which increase the compressibility of the liquid, but also have to have hydraulic fluids as well as the ability to rapidly remove air or gases.

It is required that the oil life of the hydraulic system be as long as possible, that is, the oil has a sufficiently high thermo-oxidative stability. This is due both to the chemical composition of the base oil and to the choice of thyne and the antioxidant content of the kits, which therefore always contain high-quality hydraulic oils, in oils containing zinc dialkyl phosphite also acts as an oxidation inhibitor. they add ashless antioxidants such as alkylphenols or aromatic amines.

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The presence of a small amount of moisture in the oil cannot be excluded in any hydraulic system. Because they are oils of mostly alkaline nature with relatively low viscosities, they do not themselves have the ability to protect metal surfaces from rust. Therefore, they are usually equipped with a rust inhibitor, which may be petroleum or synthetic calcium or barium or magnesium alkylarylsulfonate, low molecular weight succinimide, sarcosine N-acyl derivative, alkenyl maleate anhydride and others.

According to its properties, respectively. The hydraulic oils according to the ISO / TC 28 / / SC 4 classification are classified into four performance classes: HH, oils without oxidation inhibitors, HL, oils with oxidation and corrosion inhibitors, HM, KL oils with anti-dust additive, HV, HM oils with extra viscosity index modifier.

The hydraulic oil should be compatible with the rubber seals used in the hydraulic system. It should not cause excessive swelling or excessive rubber shrinkage. This ability is due not only to the character, the chemical composition of the oil, but also to the rubber composition. In practice, the choice of the type and composition of the rubber is adapted to the hydraulic oil used.

Hydraulic oils are mainly produced from petroleum oil raffinates, mainly of cyclanic character, but also synthetic oils, mainly ester and polyalphaolefin oils are used.

According to the invention, these problems are solved by a partially synthetic hydraulic process consisting of base oil and refining additives. It is based on the fact that the base oil is 10 to 95% by weight. % of hydrogenated polymers with a mixture of 1-butene and 2-butene with an unlimited content of individual n-butenes and with a maximum of 3% by weight of hydrogenated polymers; % isobutylene mixed, with an MV of 250 to 850 and a polydispersity of 1.15 to 1.35 and a boiling point of from 300 to 550 ° C and a bromine number of at most 2 and 5 to 90 wt. Petroleum oil raffinate, consisting of a high pressure hydrogenate having a viscosity index of at least 75 and a pour point of not more than -8 ° C. It also contains a refining additive of 0.1 to 0.5% by weight. inhibitor

- 4,263 22:

% by weight of a barium or magnesium or alkenyl maleic anhydride or low molecular weight succinimide or sarcosine N-aryl derivative, 0.3 to 18 wt. a viscosity modifier and a depressant, for example an ice of a polymethacrylate or polyvinyl isoalkyl ether having a high shear stability and 0.0001 to 0.1 wt. antifouling agents, for example polymethylsiloxane or polyvinylsiloxane. According to a preferred embodiment, it may contain 0.5 to 5 wt. lubricants, for example ice or higher fatty acids with a carbon number of at least 10 or an ester thereof, optionally containing nitrogen in the form of amines and amides.

The essential advantage of the oil according to the invention lies in good rheological properties at low temperatures, good thermo-oxidative stability and high shear stability. Blended with petroleum oil raffinates, preferably high pressure hydrogenates, with sufficiently high viscosity indices and low pour points, base oils are formed from which, after the addition of refining additives, high-quality hydraulic oils of all viscosity and performance classes according to ISO can be prepared. Depending on the molecular weight of the hydrogenated polymers of n-butenes, partially synthetic oils of the groups HK, HL, HM and HV and of types 10, 15, 22, 32, 46, 68, 100 and 150 according to ISO / TC 28 / SC 4 classification can be prepared.

The oil according to the invention is described in more detail below in several exemplary embodiments.

Example 1

A partially synthetic hydraulic oil ISO VG 10/15 of the performance class ISO HL with the following composition /% w / w was prepared: Hydrogenated polymer of a mixture of 1-butene and 2-butenes 85,898 with a distillation range of 305 to 360 ° C

High pressure hydrogenate with a viscosity of 3 »55 mm ^ / sec. To 100 ° C, with a dynamic viscosity of 500 mPa / sec at -10 ° C, with VI 79» with a freezing point of -21 ° C and a flash point of 160 ° C.

5.0

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Viscosity modifier and polymethacrylate type β depressant with high shear stability 3.6

Barium alkylarylsulfonate rust inhibitor 0.2

Alkylphenol type oxidation inhibitor 0.3

Anti-foaming additive of polymethylsiloxane type 0.002

The prepared oil had the following characteristics:

Kinematic viscosity (mm ² / s) at 40 ° C 12.9

Viscosity index

Viscosity at low shear (Brookfield) at -10 ° G 180 / mPa.s/ -20 ° C 450

-50 ° G

Flash point (OK), ° G 145

Pour point, ^{0 (} - -64

Aniline point, ° C 104

Acid number, mg KOH / g 0.01

Oxidation test / 100 ° C / 96h / 5L air / h / Cu catalyst

viscosity increase at 50 ° C after oxidation,% 0.7

- acidity number after oxidation, mg KOH / g 0,37

Corrosion to me3 / 3h / 100 ° C / la

Corrosion to steel negative

Foaming ASTM, ml at 24 ° C 0/0 ° C 0/0 ° C after 93 ° C 0/0

Delaying characteristics after 30 min 40-38-2

Shear stability in Bosch injector (DIN 51 382), viscosity drop by 30% after 30 cycles

According to the stated properties, the oil meets the conditions for inclusion in the performance class HL according to ISO / TC 28 / SC 4 for the viscosity class ISO VG 10 resp. 15 Dec

Example 2

Partially synthetic hydraulic oil ISO VG 68 of the output class ISO HM was prepared with the following composition (in% w / w):

- 6,263,223

High pressure hydrogenate with a viscosity of 7.2 mm @ 2 / sec at

100 ° C, VI 95, flash point / OK / 232 ° C, pour point -12 ° C 88,849

Hydrogenated polymer of a mixture of 1-butene and 2-butenes with a viscosity of 24.89 mnc / s at 100 ° C, with an initial boiling point of 460 ° C, VI 45, flash point / OK / 234 ° C, pour point -18 ° C, s bromine number g Br / 100 g 8.5

Viscosity laodifier and polymethacrylate-type depressant, shear stable 2.0

Zinc dialkyldithiophosphate with alkyls 1C4 and iCg 0.5

Rust inhibitor - barium alkylarylsulphonate 0.15 ^ polymethylsiloxane-type rotipoaming agent 0.001

The prepared oil had the following quality parameters:

Kinematic viscosity (mm ² / s) at 40 ° C 70.05

Viscosity index 105

Viscosity, dynamic (Brookfield) / (mPa.s) at -10 ° 0 1900

Flash point (OK), ° C 232

Solidification, ° C -42

Aniline point, ° G 109

De-emulsifying characteristics after 30 min 40-39-1

Foam ASTK, ml at 24 ° C 10/0 ° C 25/0 ° C in 93 ° G 5/0

Shear stability in Bosch injector after 30 cycles, viscosity drop by% 1.5

Vickers test

stator wear, mg 30

lamella wear, mg 5

Depending on the characteristics listed, the oil meets the conditions for inclusion in the ISO KLI performance class according to ISO / TC 28 / SC 4 for the ISO VG 68 viscosity class.

Example 3

Partially synthetic hydraulic oil ISO VG 46 of performance class ISO KV was prepared with the following composition /% w /:

High pressure hydrogenate with a viscosity of 3.55 mm @ 2 / sec

263 223 with a dynamic viscosity (Brookfield) of 500 mPa.s at

- 15 ° C, with VI 79, with freezing point -21 ° C, with flash point / OK / 168 ° G 79,049

1-Iydrogenated polymer of 1-butene-2-butene mixture as in Example 2 10.0

Viscosity modifier as in Example 2 10.0

Zinc dialkyldithiophosphate as in Example 2 0.8

Rust inhibitor as in Example 2 0.15

Polymethylsiloxane type antifoam additive 0.001

The prepared oil had the following quality parameters:

Kinematic viscosity (mm 2 / s) at 40 ° C 48.07

Viscosity index 173

Dynamic viscosity (Brookfield) (mPa.s) at -10 ° C 800

-20 ° C

Flash point (OK), ° G 191

Pour point, ° G “52

Aniline point, ° C 1 ° 3

De-emulsifying characteristics after 30 min 40-39-1

Foaming capacity of ASTLI, ml at 24 ° C 5/0 ° G 20/0 ° C to 93 ° C 0/0

Shear stability in Bosch injector after 250 cycles, viscosity drop by% 10

Vickers test

stator wear, mg 20

lamella wear, mg 5

According to the stated properties, the oil meets the conditions for inclusion in the ISO HV power class according to ISO / TC 28 / SC 4 for the viscosity class ISO VG 46.

Claims (4)

SUBJECT OF THE INVENTION A semi-synthetic hydraulic oil consisting of a base oil and a refining agent, characterized in that the base oil is 10 to 95% by weight. % of hydrogenated polymers by a mixture of 1-butenes and 2-butenes with an unrestricted content of individual n-butenes and with a maximum of 3% by weight of hydrogenated polymers; % isobutylene mixed with an MV of 250 to 850 and a polydispersity of 1.15 to 1.35 and a boiling point of from 300 to 550 ° C and a bromine number of at most 2 and 5 to 90 wt. % petroleum oil raffinate, consisting of a high-pressure hydrogenate having a viscosity index of at least 75 and a pour point of not more than -8 ° C, and contains a refining additive of 0.1 to 0.5 wt. a rust inhibitor, for example an oil-soluble calcium or barium or magnesium alkylarylsulfonate, or an alkenyl maleate anhydride or a low molecular weight succinimide or a sarcosine N-aryl derivative, 0.3 to 18 wt. a viscosity modifier and a depressant, for example polymethacrylate or polyvinyl isoalkyl ether having a high shear stability and up to 0.0001 to 0.1 wt. foaming agents such as polymethylsiloxane or polyvinylsiloxane. 2. Partially synthetic hydraulic oil according to claim 1, characterized in that it contains 0.6 wt. low temperature alkylphenol and / or aromatic amine antioxidant. 3. Partial synthetic hydraulic oil according to claim 1 and 2 _1, characterized in that it comprises at most 3% by weight. ashless antifouling additives, for example of the aryl phosphate type or 0.3 to 10 wt. zinc dialkyldithiophosphate with C5 to C8 alkyls. 4. A partially synthetic hydraulic oil according to claims 1 to 3, characterized in that it comprises 0.5 to 5% by weight. lubricating additives, for example a higher alcohol or a fatty acid having a carbon number of at least 10 or an ester thereof, optionally containing nitrogen in the form of amines and amides.