Mobil Jet Oil 387
ExxonMobil aviation , Latvia
Aircraft Type Gas Turbine Lubricant
Mobil Jet Oil 387 has been developed to meet the performance requirements of both current and future, advanced gas turbine engines used in commercial and military service. Made from a specially prepared, ester base stock, Mobil Jet Oil 387 is fortified with a unique chemical additive package. The resulting lubricant has superior thermal and oxidation stability that resists deterioration and deposit formation. The physical properties of Mobil Jet Oil 387conform to required builder and military specifications.
Mobil Jet Oil 387 shows excellent performance controlling deposits typically experienced in both the liquid and vapor phases in bearing compartments, oil supply lines, and breather/scavenger lines. These properties have been confirmed in various laboratory tests, including the Corrosion-Oxidation Stability Test, Alcor Deposition Test, Vapor Phase Coker, Erdco High-Temperature Bearing Test, Ryder Gear, and the Mobil Thin Film Oxidation Test.
The closely controlled viscosity of Mobil Jet Oil 387 at -40°C (-40°F), and a pour point below -54°C (-65°F), ensure the good low-temperature fluidity which permits starting and lubrication at temperatures as low as -40°C. In extensive laboratory testing, Mobil Jet Oil 387 exhibits excellent bulk oil stability at temperatures greater than 225°C (437°F).
Key features and benefits include:
|Features||Advantages and Potential Benefits|
|Long-duration fluorocarbon compatibility||Helps avoid premature or unscheduled engine repairs. Helps prevent leaks that can lead to air craft delays and cancellations.|
|Outstanding oil life characteristics, such as bulk oil stability, viscosity and TAN control||Helps minimize formation of sludge and carbon deposits which allows better engine efficiency and reduced engine repair costs as well potentially achieving longer oil drain intervals (in certain applications such as marine and land based turbines), effective lubrication at high operating temperatures|
|Very low vapor/mist and thin film deposition resistance||Helps control deposits in air vent tubes, bearingcompartments, and scavenge oil lines which will all result in reduced engine maintenance costs|
|Good low temperature fluidity||Permits start-up and ensures effective lubrication of critical components (such as APUs in ETOPS applications) at temperatures as low as -40 °F|
Mobil Jet Oil 387 is approved against the new SAE AS5780 High Performance Capability (HPC) standard. This civil specification was developed to meet the growing performance and quality needs that commercial airlines seek, especially with the entrance of new, higher-output and lower consumption engines.
OEM in-house evaluation/approval programs are also underway. Once complete, Mobil Jet Oil 387 will be commercialized for use in aircraft gas turbine engines, including turbo-jet, turbo-fan, turbo-prop, and turbo-shaft (helicopter), in commercial and military service. In addition, it will be suitable for aircraft-type gas turbine engines in industrial and marine applications.
Mobil Jet Oil 387 is compatible with other synthetic gas turbine lubricants meeting U.S. Military Specification MIL-PRF-23699. Mixing with other products, however, could result in some loss of its superior performance features. The lubricant is completely compatible with all metals used in gas turbine construction, as well as with F Rubber (Viton A), H Rubber (Buna N), and other commonly used seal materials. Engine/OEM Evaluations
Mobil Jet Oil 387 has the following builder approvals: *
General Electric Aviation
Pratt & Whitney
UTC Aerospace Systems APUs, Generators and Starters
Mobil Jet Oil 387 has the following builder approvals in progress : *
International Aero Engines
Honeywell turbine engines
Mobil Jet Oil 387 has the following approvals:
* Specific engine or equipment approval must be verified with the builder
|Mobil Jet Oil 387||Typical||Limit|
|cSt at 100°C (212°F)||5.2||4.9 to 5.4|
|cSt at 40°C (102°F)||25.9||23.0 min|
|cSt at -40°C (-40°F)||10140||13,000 max|
|0.1 % change at -40°C after 72 hr.||0.1||6%max|
|Flash Point, ° C ( ° F), min||278(532)||246 min.|
|Fire Point, ° C ( ° F)||292(558)||No limit|
|Autogenous Ignition Temp, ° C ( ° F)||405(761)||No limit|
|Pour Point, ° C( °F)||-57 (-71)||-54 max|
|Specific Gravity, 15/15°C (60/60°F)||0.999||No limit|
|TAN (mg KOH/g sample)||0.03||1.0 max|
|Evaporation Loss, %|
|6.5 hr at 204°C (400°F), 29.5" Hg||4||10 max|
|Sequence 1, 24°C (75°F)||10||25 max|
|Sequence 2, 93.5°C (200°F)||10||25 max|
|Sequence 3, 75°C (after 200°F test)||10||25 max|
|Foam Stability, after 1 min settling, ml||0||0 max|
|F Rubber, 72 hr at 204°C (400°F), %||15||5 -25|
|H Rubber, 72 hr at 70°C (158°F), %||15||5 -25|
|Ryder Gear||2806||No limit|
|% Hercolube A||104||102 min.|
*Typical properties are typical of those obtained with normal production tolerance and may vary slightly, while remaining within specified limits.
Health and safety
Health and Safety recommendations for this product can be found on the Material Safety Data Sheet (MSDS) @ http://www.msds.exxonmobil.com/psims/psims.aspx
All trademarks used herein are trademarks or registered trademarks of Exxon Mobil Corporation or one of its subsidiaries unless indicated otherwise.08-2021