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Krytox

Krytox™ is a brand of high-performance synthetic lubricants comprising perfluoropolyether (PFPE) oils and polytetrafluoroethylene (PTFE)-thickened greases, renowned for their exceptional stability in extreme environments.^[1] These colorless, non-toxic fluids, composed primarily of fluorine (69.0%), carbon (21.6%), and oxygen (9.4%), were discovered in 1959 by DuPont researchers and initially applied in aerospace, including the Apollo space program in 1965.^[1] Now manufactured by The Chemours Company FC, LLC, Krytox lubricants meet military specifications like MIL-PRF-27617 and offer a wide temperature range of -75°C to 350°C (up to 400°C with compatible metallurgy), along with nonflammability, chemical inertness, and oxygen compatibility.^[1] Key properties of Krytox include low volatility, minimal evaporation loss, and compatibility with most plastics and elastomers, enabling extended service life in demanding applications without the need for frequent relubrication.^[1] Available in various grades—oils with ISO VG grades ranging from 2 to 220 and greases in NLGI 000 to 6—these lubricants are chemically stable against aggressive chemicals, radiation, and oxidation, making them insulators suitable for electrical components.^[2]^[1] Krytox finds widespread use across industries such as aerospace for bearings and seals, automotive for noise-vibration-harshness (NVH) reduction, electronics and semiconductors for precision mechanisms, food processing for incidental contact-safe lubrication, and power generation for high-temperature operations.^[1] Post-1981 commercialization expanded their availability beyond aerospace to general industrial and medical applications, enhancing reliability and sustainability by reducing maintenance and downtime.^[1]

History

Invention and Early Development

Krytox lubricants originated from research conducted by scientists at E.I. du Pont de Nemours and Company (DuPont) in the late 1950s, as part of broader efforts in fluoropolymer development. During this period, DuPont researchers synthesized perfluoropolyether (PFPE) fluids, with the key discovery occurring in 1959, demonstrating exceptional thermal and oxidative stability that distinguished these compounds from conventional lubricants.^[3]^[4] In the early 1960s, DuPont collaborated with the U.S. military to refine PFPE-based formulations, leading to the development of Krytox greases in 1964 specifically for high-performance applications requiring nonflammability and reliability under extreme conditions. These advancements were driven by the demands of the burgeoning space program, culminating in the first commercial sales of Krytox lubricants in 1965 for NASA's Apollo missions. Qualification testing during this decade confirmed their suitability for vacuum environments and temperature extremes ranging from cryogenic lows to high heats, marking a pivotal shift in space lubrication technology.^[5]^[5] Krytox saw its initial major deployment in the Apollo space flights of the late 1960s, providing critical lubrication for components exposed to the harsh conditions of space travel. A notable application came in 1971 with the Lunar Roving Vehicle (LRV) used on Apollo 15, where Krytox 240AC grease lubricated the traction drive and steering motors, ensuring operational integrity in the lunar vacuum and temperature fluctuations. This success in the 1970s further solidified Krytox's qualification for NASA programs, paving the way for limited commercial expansion after 1981.^[6]^[7]^[5]

Commercial Expansion

In 1981, DuPont introduced non-aerospace grades of Krytox lubricants, marking a significant shift from its exclusive use in high-performance aerospace applications to broader commercial availability. This expansion included the development and launch of PFPE-based oils and greases tailored for general industrial use, such as in chemical processing, automotive components, and reactive gas systems, enabling wider adoption beyond military and space sectors.^[1] By the 1990s, Krytox had gained substantial market traction in emerging sectors, particularly electronics and food processing, where its chemical inertness and thermal stability addressed demanding operational needs. In electronics manufacturing, the lubricants were increasingly specified for precision equipment to prevent contamination and ensure reliability in cleanroom environments, while food-grade variants received NSF H1 certification for incidental contact in processing machinery, facilitating compliance with hygiene standards. This period saw accelerated global distribution growth, supported by DuPont's expanding network, which positioned Krytox as a preferred solution for extreme-condition lubrication worldwide.^[1]^[8] In 2015, DuPont spun off its performance chemicals division, including the Krytox product line, to form The Chemours Company as an independent entity effective July 1, completing a strategic separation to focus on fluoroproducts innovation and market expansion. Under Chemours, Krytox benefited from enhanced global technical support and distribution channels, further solidifying its commercial footprint in diverse industries while maintaining its reputation for longevity and performance.^[9]^[1]

Chemical Composition

Molecular Structure

Krytox lubricants are based on perfluoropolyether (PFPE) fluids, characterized by a linear polymer backbone consisting of repeating ether linkages flanked by fluorinated carbon chains.^[2] The general molecular formula for the base oil is F−(CF(CF₃)−CF₂−O)ₙ−CF₂CF₃, where n denotes the degree of polymerization and typically ranges from 10 to 60, depending on the desired molecular weight and viscosity.^[2]^[1] This structure features branched trifluoromethyl (−CF₃) side groups on every other carbon atom, which contribute to the molecule's overall rigidity and resistance to degradation.^[2] The fully fluorinated nature of Krytox excludes hydrogen atoms entirely, resulting in a composition primarily of carbon, oxygen, and fluorine.^[2] By weight, a typical Krytox oil contains approximately 21.6% carbon, 9.4% oxygen, and 69.0% fluorine, which imparts exceptional chemical inertness and thermal stability to the material.^[2] Krytox PFPEs are synthesized through the anionic ring-opening polymerization of hexafluoropropylene oxide (HFPO), a cyclic monomer that undergoes nucleophilic attack to form the ether linkages and extend the chain.^[10] This process, pioneered by DuPont, yields telechelic polymers with controlled end groups, such as the perfluoroalkyl termini seen in the formula, enabling precise tailoring of properties for lubrication applications.^[10] The resulting structure's high fluorine content enhances its utility in extreme environments, such as aerospace systems requiring long-term reliability.^[11]

Product Variants

Krytox lubricants are available in a variety of formulations tailored to specific performance needs, all based on perfluoropolyether (PFPE) fluids. The product line includes oils and greases with differing viscosities, additives, and thickeners to address applications ranging from general lubrication to extreme environments.^[1] The oil series encompasses several key variants designed for precision and reliability. The 143 series features low-vapor-pressure oils suitable for vacuum systems, offering minimal outgassing and compatibility with oxygen service, with kinematic viscosities of 32 cSt (143AA), 78 cSt (143AB), and 450 cSt (143AC) at 40°C.^[12] For general-purpose applications, the 105 and 107 oils provide broader utility, with the 105 offering a viscosity of 160 cSt at 40°C (522 cSt at 20°C) for moderate-speed operations and the 107 reaching 450 cSt at 40°C (1535 cSt at 20°C) for heavier loads, both maintaining stability across wide temperature ranges.^[2] Overall, Krytox oils span viscosity grades from about 12 cSt to 1600 cSt at 20°C, allowing selection based on operational demands like speed and load.^[2]^[1] Grease variants build on these oils by incorporating thickeners and additives for enhanced durability. The GPL series represents general-purpose greases thickened with polytetrafluoroethylene (PTFE) to form a white, buttery consistency (NLGI Grade 2), derived from the corresponding 100–107 oils, and suitable for valves, bearings, and seals in chemical environments. The XHT series targets high-temperature scenarios, operating up to 360°C with low evaporation and non-melting thickeners, available in formulations like XHT-SX for oxygen compatibility. The XP series focuses on anti-corrosion and extreme-pressure protection, using soluble additives to shield metals from rust and wear under high loads, often in variants like XP 2A for quieter operation in bearings.^[2]^[1] Specialized variants address niche requirements, such as food-grade options certified to NSF H1 standards for incidental contact in processing equipment; these include GPL greases like 205 and 207, which retain the chemical inertness of the base PFPE while ensuring non-toxicity.^[2]^[1] Anti-corrosion variants, such as the GPL 22X series, include sodium nitrite additives to prevent oxidation and extend component life in corrosive settings. These formulations prioritize compatibility and longevity without compromising the core PFPE structure common across the lineup.^[2]^[1]

Physical and Chemical Properties

Thermal and Chemical Stability

Krytox lubricants, based on perfluoropolyether (PFPE) fluids, exhibit exceptional thermal stability, enabling reliable performance across a broad temperature spectrum. For oils, the operating range typically spans from -75°C to 350°C continuously, with some formulations suitable for intermittent exposure up to 400°C. Greases, depending on the grade, maintain functionality from approximately -60°C to 260°C, while specialized high-temperature variants like XHT series extend to 300°C or higher for continuous use. This stability arises from the fluorinated molecular structure, which resists thermal degradation and maintains viscosity without significant breakdown.^[13]^[14] The chemical inertness of Krytox is a key attribute, rendering it non-reactive with a wide array of substances, including strong acids, bases, solvents, and oxidizers. It shows no reaction with boiling sulfuric acid, fluorine gas at 200°C, or molten sodium, and remains stable in the presence of reactive gases. This inertness extends to oxygen compatibility, with no autoignition observed up to 482°C in pure oxygen environments, making it suitable for applications involving oxidizing conditions without risk of combustion. Exceptions include reactivity with Lewis acids and alkali metals under extreme conditions.^[15]^[16]^[17] Krytox demonstrates low volatility, characterized by minimal evaporation even at elevated temperatures. Within recommended operating ranges, weight loss is less than 1% after 24 hours at 250°C, and specific tests show evaporation rates as low as 0.2% over 22 hours at 204°C for certain grades. This low evaporation rate ensures long-term performance without the need for frequent reapplication, contributing to its durability in demanding environments.^[18]^[19]

Lubrication Performance

Krytox lubricants exhibit a low coefficient of friction, typically around 0.07 to 0.11 under load, which minimizes energy loss and enables smooth operation at high speeds in demanding mechanical systems.^[20]^[21] This frictional behavior is attributed to the perfluoropolyether base and polytetrafluoroethylene thickener, providing consistent lubricity without stick-slip phenomena.^[22] In terms of wear protection, Krytox offers excellent boundary lubrication in metal-to-metal contacts by forming a robust lubricating film that reduces direct surface interaction and prevents fretting or scoring.^[23]^[24] Its service life can extend up to four times longer than conventional hydrocarbon lubricants in high-temperature or oxidative environments, as demonstrated in bearing life tests such as ASTM D3336.^[25] This longevity is supported by thermal stability, allowing sustained performance without degradation up to 260°C.^[13] Krytox demonstrates broad compatibility with plastics, elastomers, and metals, exhibiting no swelling, degradation, or corrosion under normal operating conditions.^[26] It interacts neutrally with materials such as nylon, PTFE, Viton, and stainless steels, preserving component integrity in assemblies involving diverse substrates.^[13] Minor volume changes (15–20%) may occur with certain elastomers at elevated temperatures, but overall, it avoids adverse effects that plague hydrocarbon alternatives.^[13]

Applications

Aerospace and Aviation

Krytox perfluoropolyether (PFPE) lubricants have been essential in NASA programs since their debut in the Apollo space program in 1965, providing nonflammable, chemically inert lubrication for critical oxygen-compatible components such as couplings, valves, regulators, and seals.^[27] In the Lunar Roving Vehicle deployed during Apollo 15 and 17, Krytox 143AC oil lubricated the harmonic drive for precise motion control, while Krytox 240AC grease was applied to the traction drive assembly motors and steering motors, enabling reliable performance in the lunar vacuum, temperature fluctuations during lunar daytime operations from approximately 0°C to 120°C, and abrasive regolith conditions without lubrication failure.^[28] These formulations' low vapor pressure and stability under high vacuum prevented outgassing or degradation, contributing to the vehicle's successful traversal of over 90 kilometers across multiple missions.^[27] For the Space Shuttle program, Krytox greases and oils were utilized in bearings and seals within rocket engines (including exposure to cryogenic and hypergolic propellants in various systems) and body flap actuators, enduring extreme pressures and thermal cycling from cryogenic to combustion temperatures, though some degradation occurred under reentry conditions.^[27]^[28] On the International Space Station, Krytox 240 series greases lubricate space suit joints, articulation points, and bearings in oxygen-breathing systems, ensuring smooth mobility and seal integrity during extravehicular activities in the orbital vacuum and radiation environment.^[27] The lubricants' resistance to ionizing radiation—with tests showing only an 8% viscosity decrease after exposure to 10^7 rad—has supported long-term reliability in these zero-gravity applications.^[5] In aviation, Krytox is applied to jet engine accessories, including ancillary gearbox spline couplings and anti-friction mounts, where it reduces wear under high-speed, high-temperature operations up to 260°C.^[27] It also lubricates electro-mechanical actuators and synchronous motor bearings in gyroscopes and inertial navigation systems, leveraging its non-conductive properties and tolerance for partial vacuum at high altitudes to prevent electrical shorts or seizing.^[27] These attributes deliver extended service intervals and minimal maintenance, as demonstrated by the absence of lubrication-related failures in Lunar Rover motors, which operated flawlessly for mission durations despite continuous exposure to radiation and vacuum.^[28]

Industrial and Chemical Processing

Krytox lubricants are widely utilized in chemical processing environments due to their exceptional chemical inertness and compatibility with aggressive media. In facilities handling chlorine or oxygen, such as production plants, Krytox greases and oils lubricate valves, pumps, and seals, preventing degradation from reactive gases and extending component life. For instance, specialized formulations like Krytox NRT series are designed for critical oxygen service equipment, ensuring safe operation without risk of ignition or reaction. These lubricants maintain performance in pumps, agitators, reactors, and centrifuges, reducing maintenance needs in corrosive settings.^[29]^[5]^[30] In the electronics industry, particularly semiconductor manufacturing, Krytox products provide low-outgassing and low-vapor-pressure lubrication for cleanroom equipment. They are applied to bearings, slides, and seals in robotic systems and flow solder ovens, minimizing particle generation and contamination while supporting precise operations over wide temperature ranges. Formulations such as Krytox 240 series and XHT grades exhibit vapor pressures as low as 3 × 10⁻¹⁴ Torr at 20°C for XHT, while the 240 series have around 10⁻⁴ to 10⁻⁶ Torr at 38°C, making them ideal for high-vacuum and sensitive environments. Their non-reactivity ensures compatibility with cleanroom materials, enhancing equipment reliability.^[22] For food and pharmaceutical processing, Krytox H1-rated greases meet NSF International standards for incidental food contact and comply with FDA regulation 21 CFR 178.3570, allowing safe use in mixers, conveyors, and packaging machinery. These clear, odorless, and non-toxic lubricants, such as Krytox GPL 205, operate effectively from -36°C to 204°C without contaminating products or promoting microbial growth. Their inert nature prevents reactions with food-grade materials, supporting hygiene and extending service intervals in demanding production lines.^[13]^[19] Beyond these sectors, Krytox lubricants serve automotive valves and textile machinery, where their thermal stability and non-flammability enable reliable performance in oxygen-rich or high-heat conditions. In automotive applications, they lubricate valves, actuators, and seals for enhanced durability under varying loads and temperatures. For textile equipment, Krytox oils and greases withstand processing extremes, maintaining viscosity and lubricity to reduce wear on spindles and looms.^[29]^[31]^[8]

Safety and Environmental Considerations

Health and Toxicity

Krytox perfluoropolyether (PFPE) lubricants demonstrate low acute toxicity across various exposure routes. The oral LD50 exceeds 5 g/kg in rats for most grades, such as the VPF 1531 XP variant, indicating minimal risk from ingestion under normal conditions.^[32] Similarly, dermal LD50 values surpass 5 g/kg in rabbits, and inhalation LC50 exceeds 5 mg/L over 4 hours in rats, underscoring their generally safe profile for human contact.^[33] Krytox products are non-irritating to skin and show only mild, transient effects on eyes, based on standard Draize tests in rabbits.^[34] They do not cause skin sensitization, as confirmed by Buehler tests in guinea pigs and human patch tests.^[35] Regarding inhalation risks, exposure to mists or vapors from overheating should be avoided, as decomposition products above 290°C may lead to respiratory irritation or pulmonary edema, necessitating proper ventilation and medical attention if symptoms occur.^[36] Krytox lubricants lack evidence of carcinogenicity, mutagenicity, or reproductive toxicity, with no components listed by OSHA, IARC, NTP, or ACGIH.^[34] Under EU REACH regulations, they are registered without classifications for human health hazards, and per OSHA standards, they are not deemed hazardous substances.^[37] Most grades are non-hazardous under the Globally Harmonized System (GHS), though some may carry precautionary labeling for environmental persistence rather than direct toxicity concerns.^[38] As of 2025, while PFPE-based products like Krytox are not classified as hazardous for human health, they are subject to ongoing global PFAS regulatory scrutiny, including EU restrictions adopted in September 2024 and U.S. EPA additions to the Toxic Release Inventory in January 2025, primarily due to environmental persistence, though exemptions for lubricants are being advocated based on their stability and lack of bioaccumulation.^[39]^[40] Their inert chemical nature further minimizes reactivity-related health risks.^[35]

Handling and Disposal

Krytox lubricants, being perfluoropolyether (PFPE)-based products, require careful handling to prevent slips and ensure compatibility with application equipment. During use, appropriate personal protective equipment (PPE) such as chemical-resistant gloves and safety glasses should be worn to minimize skin contact, although the materials exhibit low toxicity and do not pose significant health risks under normal conditions.^[41] These lubricants are non-flammable and chemically inert, eliminating ignition risks, but their slippery nature necessitates immediate cleanup of spills using inert absorbents like vermiculite or sand, followed by proper disposal of the absorbed material to avoid environmental release. For storage, Krytox products should be kept in their original sealed containers in a clean, dry, well-ventilated area at ambient temperatures, typically between -20°C and 50°C, to maintain stability and prevent contamination; they are compatible with fluoropolymer containers such as PTFE. Unopened containers have an indefinite shelf life under these conditions due to the inherent thermal and oxidative stability of PFPEs.^[42] Handling procedures emphasize good industrial hygiene practices, including adequate ventilation to avoid inhalation of any vapors during application, though no special respiratory protection is generally required.^[43] Disposal of Krytox lubricants is governed by local regulations, as they are classified as non-hazardous waste under the U.S. EPA Resource Conservation and Recovery Act (RCRA) guidelines when uncontaminated.^[31] Used or contaminated materials should not be released into waterways or soil; instead, they are recommended for high-temperature incineration at temperatures exceeding 1000°C in facilities equipped for fluorinated compounds to ensure complete destruction and minimize persistent environmental impacts, in line with EPA interim guidance on PFAS disposal as of September 2025.^[44] Recycling or reclamation programs offered by manufacturers can also be utilized for spent lubricants to promote sustainability.^[5]

References

[1]
None
### Summary of Krytox Lubricants
[2]
[PDF] Synthesis report on understanding Perfluoropolyethers (PFPEs) and ...
PFPEs were reportedly first synthesized by DuPont in the late 1950s and later publicly presented at a ... Krytox 143, Krytox 16350, Krytox 293R, Krytox.
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[PDF] PFPE Lubricants in Aerospace Applications - Krytox
Krytox™ perfluoropolyether (PFPE) lubricants were discovered in 1959 and showed remarkable thermal and oxidative stability. Potential uses envisioned then ...Missing: DuPont invention 1950s
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[PDF] Product Overview - Krytox
Anti-corrosion additives are combined with Krytox™ grease to enhance its ability to protect metallic surfaces from corrosion caused by moisture and oxygen .<|control11|><|separator|>
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DuPont™ Krytox® performance lubricants were first used by NASA for the Apollo space flights in the 1960s. Krytox® oils and greases work at both low and high ...
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[PDF] Proceedings of - NASA Technical Reports Server (NTRS)
Other lubricating materials included Krytox™ 240AC grease in the traction drive and steering motors as well as silicone base oil in the suspension damper. Dry ...
[7]
Krytox™ High-Performance Lubricants Across Industries
Krytox lubricants perform in harsh conditions, are nonflammable, chemical resistant, and used in aerospace, automotive, chemical processing, electronics, ...
[8]
The Chemours Company Completes Spin-Off from DuPont and ...
Jul 1, 2015 · The Chemours Company Completes Spin-Off from DuPont and Launches as an Independent, Publicly Traded Company · Chemours as a 200-hundred-year-old ...
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[PDF] Product Information - Krytox
On a weight basis, a typical Krytox™ oil contains 21.6% carbon, 9.4% oxygen, and 69.0% fluorine. All standard grades of grease are thickened with.
[10]
[PDF] The Preparation of New Perfluoroether Fluids Exhibiting Excellent ...
Du Pont produces telomers and polymers of hexafluoropropylene oxide (Krytox) by the anlonlc polymerization of hexa- fluoropropylene oxide monomer (ref. 8) ...
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Krytox™ 143AC is a fluorinated oil with a viscosity of 243 cSt (at 40°C) ... Krytox™ GPL105 Oil · Krytox™ GPL106 Oil · Krytox™ GPL107 Oil. Krytox™ oils for ...
[12]
Krytox XP 2A0 Grease - Miller-Stephenson Chemicals
$$20 delivery 30-day returnsKrytox XP 2A0 grease is formulated using soluble additives. Extreme pressure properties of the additive protect under high loads.
[13]
Krytox™ H-1 Food Grade Lubricants
Oct 10, 2016 · Krytox™ H-1 lubricants are safe for incidental food contact, have high-temp stability, are nonflammable, chemically inert, and not direct food ...
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[PDF] Product Overview - Krytox
It is nonflammable, oxygen compatible, and chemically inert. Krytox™ XHT- AC, ACX. This Krytox™ grease is a special high temperature grease with low oil ...
[15]
Krytox™ XHT (Extreme High-Temperature) Greases and Oils
Krytox™ XHT greases and oils can also perform in temperature spikes up to 400 °C (752 °F), when used in proper metallurgy with periodic relubrication. Features ...<|separator|>
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Krytox lubricants have exceptional chemical stability, are inert to most chemicals, and do not react with them, except for Lewis acids and alkali metals.Missing: thermal | Show results with:thermal
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[PDF] Performance Lubricants - Chemical Stability
Krytox™ PFPE oils are essentially inert to most chemicals. No reaction is observed with boiling sulfuric acid, fluorine gas at 200 °C (392 °F), molten sodium ...Missing: thermal | Show results with:thermal
[18]
Krytox NRT Non-Reactive NRT Performance Greases
Extended equipment life; No auto-ignition at temperatures up to 482 °C (900 °F) in oxygen. Different Grades for Different Applications. Krytox™ ...
[19]
[PDF] The Results Are In: - Chemours
The high-temperature capabilities of PFPEs, such as achieved with Krytox™ lubricants, have proven to prevent bonding and improve the dielectric strength at the ...<|separator|>
[20]
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PFPE lubricants offer wide temperature range capability, chemical inertness, and compatibility with almost all seals and plastic materials. Factors That ...
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[PDF] DuPont™ Krytox® Performance Lubricants Product Overview
Krytox® oils and greases are the products of choice for applications where complete nonflammability, oxygen compatibility, and resistance to aggressive.
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Krytox™ Performance Lubricants for Bearings and Sintered Bearings
Superior film-forming capability: The oil forms a thicker boundary layer, reducing wear. Extreme resistance to oxidation: Krytox™ oil, combined with advanced ...
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[PDF] Evaluation of Temperature and Material Combinations on Several ...
enhancement in lifetime between two and four times was observed with Krytox 143AC, but no life enhancement was seen when using Pennzane 2001A. NASA/TM--2001 ...
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Extreme heat or cold have no effect on the lubricity of these lubricants, effective from -73 °C to greater than 360 °C (-99. °F to 680 °F), depending upon ...<|control11|><|separator|>
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The current specifications for lubrication of NASA rovers and other surface system moving mechanical assemblies include a five year lifetime which will not be ...
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Krytox™ Performance Lubricants for Oxygen Services
Learn how Krytox™ oils and greases are nonflammable, chemically inert, thermally stable, and safe for use in all areas of oxygen service.Missing: Shuttle | Show results with:Shuttle<|separator|>
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Krytox Lubricants - High Performance - Industrial Overview
Krytox lubricants provide longer lasting lubrication that reduces frequency of re- lubrication, not only reducing operating costs, but also reducing waste.
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Krytox™ products have a very long service life. This means that products do not have to be replaced and disposed of frequently, which reduces waste. Because ...
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May 22, 2025 · Acute oral toxicity. : LD50 (Rat): > 5,000 mg/kg. Page 8. SAFETY DATA SHEET according to the OSHA Hazard Communication Standard. Krytox™ VPF ...
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[PDF] Krytox PFPE Oils - Miller-Stephenson Chemicals
Oct 15, 2015 · 1272/2008. 2.3. Other hazards. Inhalation of decomposition products from overheating may cause lung irritation or shortness of breath. SECTION 3 ...
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[PDF] Krytox PFPE/PTFE Greases (GPL 20(X) Series)
Skin contact. : Wash off with soap and plenty of water. Page 2. Material Safety Data Sheet. Krytox. ®.Missing: autoignition | Show results with:autoignition
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Perfluoropolyether oils are considered to be inert and of low toxicity. However, as with all lubricants it is important to observe correct hygiene practices.
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[PDF] Safety Data Sheet - Labtech
Safety Data Sheet. Regulation EC Nr. 1907/2006 Art.31. Product name: Krytox GPL 207 PFPE / PTFE grease. Date: April 6th 2022. Document Nr.: SD00164001015-02.
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[PDF] DuPont Krytox PFPE Oils - chemicals and lubricants
Apr 2, 2015 · Not classified as a hazardous substance or mixture according to the Occupational Safety and Health Administration. (OSHA) Hazard Communication ...
[39]
[PDF] SAFETY DATA SHEET Krytox™ 283AZ - Miller-Stephenson Chemicals
Acute oral toxicity. : LD50 (Rat): 180 mg/kg. Acute inhalation toxicity. : LC50 (Rat): 5.5 mg/l. Exposure time: 4 h. Test atmosphere: dust/mist. Skin corrosion/ ...
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Krytox™ High-Performance Lubricants: Resource Center
Safety Data Sheets. Use our database to access product SDS. Find Product SDS. Resource Links. Krytox™ Lubricants Sales and Support. Featured Content. view of ...Missing: download | Show results with:download
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However, in a properly designed bearing system, the service life of Krytox™ greases can be very, very long. For example, Krytox™ GPL. 225 is rated up to 204 °C ...
[42]
[PDF] SAFETY DATA SHEET Krytox™ GPL 205 - ChemPoint.com
GHS classification in accordance with the OSHA Hazard Communication Standard (29 CFR. 1910.1200). Not a hazardous substance or mixture. Other hazards.
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Apr 8, 2024 · This document provides guidance on the destruction and disposal of PFAS and PFAS-containing materials, including technologies and waste streams.