Hydraulic fluid#Biodegradable hydraulic fluids

The primary function of a hydraulic fluid is to convey power. In use, however, there are other important functions of hydraulic fluid such as protection of the hydraulic machine components. The table below lists the major functions of a hydraulic fluid and the properties of a fluid that affect its ability to perform that function:Placek, D., Synthetics, Mineral Oils and Bio-based Lubricants, L. ed., CRC Press, 2006, p. 519 {{ISBN|1-57444-723-8}}

The original hydraulics fluid, dating back to the time of ancient Egypt, was water.{{Citation needed|date=January 2024}} Beginning in the 1920s, mineral oil began to be used more than water as a base stock due to its inherent lubrication properties and ability to be used at temperatures above the boiling point of water. Today most hydraulic fluids are based on mineral oil base stocks.

Natural oils such as rapeseed are used as base stocks for fluids where biodegradability and renewable sources are considered important.

Other base stocks are used for specialty applications, such as for fire resistance and extreme temperature applications. Some examples include: glycol ethers, organophosphate ester, polyalphaolefin, propylene glycol, and silicone oils.

NaK-77, a eutectic alloy of sodium and potassium, can be used as a hydraulic fluid in high-temperature and high-radiation environments, for temperature ranges of {{convert|10|to|1400|F|C}}. Its bulk modulus at {{convert|1000|°F|°C|abbr=on}} is 310,000 psi (2.14 GPa), higher than of a hydraulic oil at room temperature. Its lubricity is poor, so positive-displacement pumps are unsuitable and centrifugal pumps have to be used. The addition of caesium shifts the useful temperature range to {{convert|-95|to|1300|F|C}}. The NaK-77 alloy was tested in hydraulic and fluidic systems for the Supersonic Low Altitude Missile.{{cite book|url=https://books.google.com/books?id=rr-LaaEJudoC|title=Controlled Bombs and Guided Missiles of the World War II and Cold War Eras: An Inside Story of Research and Development Programs|first=Vernon R.|last=Schmitt|date=1 January 2002|publisher=Society of Automotive Engineers|isbn=9780768009132|access-date=3 May 2017|via=Google Books}}

Hydraulic fluids can contain a wide range of chemical compounds, including: oils, butanol, esters (e.g. phthalates, like DEHP, and adipates, like bis(2-ethylhexyl) adipate), polyalkylene glycols (PAG), organophosphate (e.g. tributylphosphate), silicones, alkylated aromatic hydrocarbons, polyalphaolefins (PAO) (e.g. polyisobutenes), corrosion inhibitors (incl acid scavengers), anti-erosion additives, etc.

Environmentally sensitive applications (e.g. farm tractors and marine dredging) may benefit from using biodegradable hydraulic fluids based upon rapeseed vegetable oil when there is the risk of an oil spill from a ruptured oil line. Typically these oils are available as ISO 32, ISO 46, and ISO 68 specification oils. ASTM standards ASTM-D-6006, Guide for Assessing Biodegradability of Hydraulic Fluids and ASTM-D-6046, Standard Classification of Hydraulic Fluids for Environmental Impact are relevant.

Anti-wear (AW) hydraulic oils are made from a petroleum base fluid and commonly contain the anti-wear additive Zinc dialkyldithiophosphate (ZDDP). This additive works to protect the hydraulic pump. They come in multiple viscosity grades that have varying applications. For example, AW 46 hydraulic oils can be used to operate the hydraulic systems in off-road equipment such as dump trucks, excavators, and backhoes, while AW 32 hydraulic oils may be more suitable for colder weather applications like in a snow plow's pump.[https://petroleumservicecompany.com/blog/what-does-aw-stand-for/ What Does AW Stand For?] - Petroleum Service Company

Because industrial hydraulic systems operate at hundreds to thousands of PSI and temperatures reaching hundreds of degrees Celsius, severe injuries and death can result from component failures and care must always be taken when performing maintenance on hydraulic systems.{{cite web|last1=Labor|first1=Carl|title=Is Hydraulic Fluid Flammable?|date=21 July 2022 |url=https://firesafetysupport.com/is-hydraulic-fluid-flammable/|access-date=30 October 2022|publisher=Safetyfirst}}

Fire resistance is a property available with specialized fluids. Water-glycol and polyol-ester are some of these specialized fluids that contain excellent thermal and hydrolytic properties, which aid in fire resistance.{{cite web|last1=Peter|first1=Skoog|title=The Changing Economics of Fire-resistant Hydraulic Fluids|url=http://www.quakerchem.com/wp-content/uploads/pdf/brochures/Skoog_PDF_Article_EPrint.pdf|access-date=12 December 2014|publisher=Quaker Chemical Corporation}}

Brake fluid is a subtype of hydraulic fluid with high boiling point, both when new (specified by the equilibrium boiling point) and after absorption of water vapor (specified by wet boiling point). Under the heat of braking, both free water and water vapor in a braking system can boil into a compressible vapor, resulting in brake failure.{{cite web|url=http://www.epicbleedsolutions.com/blog/dot-brake-fluid-vs-mineral-oil/|title=DOT Brake Fluid vs. Mineral Oil - and the Winner is..|website=EpicBleedSolutions.com|access-date=3 May 2017}} Glycol-ether based fluids are hygroscopic, and absorbed moisture will greatly reduce the boiling point over time. Mineral oil and silicone based fluids are not hygroscopic.

Power steering fluid is a sub type of hydraulic fluid. Most are mineral oil or silicone based fluids, while some use automatic transmission fluid, made from synthetic base oil.{{cite web|url=http://www.aa1car.com/library/power_steering_fluid.htm|title=Power Steering Fluid|website=www.AA1car.com|access-date=3 May 2017}}{{Cite web |url=http://www.lubegard.com/pdfs/Basic_Composition_of_ATF.pdf |title=Basic Composition of ATF |access-date=2015-05-27 |archive-url=https://web.archive.org/web/20160303224330/http://www.lubegard.com/pdfs/Basic_Composition_of_ATF.pdf |archive-date=2016-03-03 |url-status=dead }} Automatic transmissions use fluids for their lubrication, cooling and hydraulic properties for viscous couplings.

Use of the wrong type of fluid can lead to failure of the power steering pump.

As aircraft performance increased in the mid-20th century, the amount of force required to operate mechanical flight controls became excessive, and hydraulic systems were introduced to reduce pilot effort. The hydraulic actuators are controlled by valves; these in turn are operated directly by input from the aircrew (hydro-mechanical) or by computers obeying control laws (fly by wire).

Hydraulic power is used for other purposes. It can be stored in accumulators to start an auxiliary power unit (APU) for self-starting the aircraft's main engines. Many aircraft equipped with the M61 family of cannon use hydraulic power to drive the gun system, permitting reliable high rates of fire.

The hydraulic power itself comes from pumps driven by the engines directly, or by electrically driven pumps. In modern commercial aircraft these are electrically driven pumps; should all the engines fail in flight the pilot will deploy a propeller-driven electric generator called a Ram-Air Turbine (RAT) which is concealed under the fuselage.Discovery channel-'seconds from disaster' This provides electrical power for the hydraulic pumps and control systems as power is no longer available from the engines. In that system and others, electric pumps can provide both redundancy and the means of operating hydraulic systems without the engines operating, which can be very useful during maintenance.

Special, stringent care is required when handling aircraft hydraulic fluid, as it is critical to flight safety that it stay free from contamination. It is also necessary to strictly adhere to authorized references when servicing or repairing any aircraft system. Samples from aircraft hydraulic systems are taken during heavy aircraft maintenance checks (primarily C and D checks) to check contamination.{{Cite web |last=Parker |first=James W. |date=1962-01-01 |title=A summary of contamination in hydraulic fluid systems of USAF and support systems |url=https://apps.dtic.mil/sti/citations/AD0273788 |url-status=dead |archive-url=https://web.archive.org/web/20230620115532/https://apps.dtic.mil/sti/citations/AD0273788 |archive-date=Jun 20, 2023 |website=Defense Technical Information Center}}

[http://everyspec.com/MIL-STD/MIL-STD-1100-1299/MIL-STD-1246C_NOTICE-1_21759/ Military Spec 1246C] is one fluid contamination specification.

The ISO fluid contamination scale assigns a contamination category based on particle size count and distribution.{{Cite web |date=2017-04-24 |title=Hydraulic Contamination and Fluid Cleanliness in Power Units |url=https://flytekgse.com/2017/04/24/hydraulic-contamination-hydraulic-power-units/ |access-date=2023-06-20 |website=FlyTek GSE |language=en-US}}

The properties of HLP 32 hydraulic oil make it ideal for lubricating machine tools.{{cite web |title=Oil You Need To Know About Hydraulic Oils - Crown Oil |url=https://www.crownoil.co.uk/lubricants/all-you-need-to-know-about-hydraulic-oil/ |website=www.crownoil.co.uk}}{{cite web |title=Machine-tool Lubrication |url=http://www.lathes.co.uk/latheparts/page17.html |website=www.lathes.co.uk}}

Source:{{Cite web |last=Bosch Rexroth AG |date=2023 |title=Hydraulic fluids based on mineral oil and related hydrocarbons |url=https://www.etshydro.com/images/stories/TechDataSheets/7-Data%20Tech%20hyd%20fluids%20re90220_2008-10.pdf |access-date=2023-10-19 |website=www.etshydro.com}}{{Cite web |last=Wodoil GmbH |date=2023-08-03 |title=Hydrauliköl für Ihren Holzspalter: Ein umfassender Leitfaden |url=https://wodoil.at/hydraulikoel-fuer-holzspalter/ |access-date=2023-10-19 |website=Wodoil GmbH |language=de-DE}}

• HL: With agents to enhance corrosion protection and age resistance. Used in hydraulic systems that do not pose any requirements as to wear protection.
• HLP: With agents to enhance corrosion protection and age resistance. Suitable for most fields of application and components.
• HLPD: As HLP but also used in systems where solid or liquid contamination need to be kept temporarily suspended.
• HVLP: With agents to enhance corrosion protection, age resistance, to reduce scuffing wear in mixed friction areas, and to improve the viscosity-temperature behavior. Used in system operated over a wide temperature range.
• HVLPD: As HVLP but also used in systems where solid or liquid contamination need to be kept temporarily suspended.

Source:

• Mil-PRF-5606 (originally Mil-H-5606): Mineral base, flammable, fairly low flashpoint, usable from {{convert|-65|to|275|F|C|0}}, red color, developed in the 1940s{{cite web |url=http://www.shell.com/content/dam/shell-new/local/corporate/aviation/downloads/pdf/aeroshell-book-2012-2013/aeroshell-book-6hydraulics.pdf |title=Archived copy |access-date=2017-02-25 |url-status=dead |archive-url=https://web.archive.org/web/20160304035524/http://www.shell.com/content/dam/shell-new/local/corporate/aviation/downloads/pdf/aeroshell-book-2012-2013/aeroshell-book-6hydraulics.pdf |archive-date=2016-03-04 }}
• MIL-PRF-6083: Usable from −54 °C to 135 °C "where corrosion protection is required and a determination has been made that MIL-PRF-46170 (FRH) hydraulic fluid cannot be used. This includes use in recoil mechanisms and hydraulic systems for rotating weapons or aiming devices of tactical and support ordnance equipment, except combat armored vehicles/equipment which require FRH. The hydraulic fluid is also used as a preservative fluid for aircraft hydraulic systems and components where MIL-H-5606 (OHA) or MIL-PRF-87257 is used as an operational fluid."{{cite web|url=http://qclubricants.com/milprf6083.htm|title=MIL-PRF-6083|website=QCLubricants.com|access-date=3 May 2017}}

Synthetic hydrocarbon base:

These synthetic fluids are compatible with mineral-base hydraulic fluids and were developed to address the low flash point draw back of mineral based hydraulic fluids.

• Mil-H-83282: Synthetic hydrocarbon base, higher flashpoint, self-extinguishing, backward compatible to -5606, red color, rated to {{convert|-40|F|C|0}} degrees.
• Mil-H-87257: A development of -83282 fluid to improve its low temperature viscosity.

Source:{{Cite web |last=Wodoil Gmbh |date=2023-08-16 |title=Alles was Sie über STOU und UTTO Öle wissen müssen |url=https://wodoil.at/stou-und-utto-oele/ |access-date=2023-10-19 |website=Wodoil GmbH |language=de-DE}}

• UTTO: Is an abbreviation for "Universal Tractor Transmission Oil". It is a hydraulic oil that can also be used in the transmissions and wet brakes of machines like tractors.
• STOU: Is an abbreviation for "Super Tractor Oil Universal". It is a hydraulic oil that can also be used in the motor, the transmissions and wet brakes. So its main difference to the UTTO oil is that it can be used also as an motor oil.

• US/NATO Military specification - MIL-H-8446
• Boeing Seattle - BMS3-11
• Boeing Long Beach - DMS2014
• Boeing Long Island - CDS5478
• Lockheed - LAC C-34-1224
• Airbus Industrie - NSA307110
• British Aerospace - BAC M.333.B
• Bombardier - BAMS 564–003
• SAE - Ac974
• SAE - AS1241
• Skydrol

Source:{{Cite web |last=CarArco |date=2025-01-29 |title=Hydrauliköle: Was bedeuten die Normen? |url=https://www.wodoil.com/de/hydraulikoele-was-bedeuten-die-normen/ |access-date=2025-01-29 |website=Wodoil |language=de-DE}}

Commonly used hydraulic oil viscosities fall under the ISO VG (Viscosity Grade) classification system, which is based on the oil's kinematic viscosity at {{convert|40|°C|°F|abbr=on}}. The most prevalent grades for general industrial and mobile hydraulic systems are typically:

• ISO VG 32
• ISO VG 46
• ISO VG 68

Additional viscosities such as the following, are also used, but less frequently or for specific low/high-temperature applications.

• ISO VG 15
• ISO VG 22
• ISO VG 100

• Dexron
• Hydraulic brake
• Hydraulic fuse
• Hydraulics International, INC.
• Hydropneumatic suspension - automobile application
• Oleo strut - aircraft application
• Osmosis
• Skydrol

{{reflist}}

{{commons category}}

• [http://qclubricants.com/hydraulic_fluid.htm Information and purchase of military specification (mil-spec) hydraulic fluid]
• [http://www.nfpa.com Information about Fluid Power is also available on the National Fluid Power Association web-site nfpa.com]

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