Product Details
SXS SAE 10W-50 Synthetic Engine Oil, 5 Gallons (30-21505) by Maxima Racing Oils®. Full synthetic, ester-fortified 4-stroke engine oil specifically formulated for side-by-side (SXS) engines. Synthetic, oxidatively-stable formulation combines surface-active esters with a shear-stable polymer system to provide excellent film thickness and viscosity stability across all operating temperatures. Advanced, proprietary additive system reduces temperatures and increases power output while keeping your engine running clean, trouble-free and extending the life of the machine.
Notes
- For all air and water-cooled SXS 4-stroke gasoline engines.
Specifications
Oil Type: Synthetic |
Viscosity Grade: SAE 10W-50 |
Volume: 5 Gallons |
Quantity: 1 Jug |
API Oil Standards: API SN PLUS |
JASO Oil Standards: JASO MA2 |
Features
- Recommended for all OEM equipment
- Formulated specifically for SXS engine
- Superior protection and oxidative stability at any temperature
- Reduces temperature and increases power output
- Shear-stable, ester-fortified formula maintains oil viscosity and film thickness
- Surface-active chemistry aggressively attaches to engine surfaces and keeps them clean
- Exceeds API SL and JASO MA2 specificationMade to deliver trouble-free operation for years ahead
- Optimal protection against wear
- Proudly made in the USA
Founded in 1979 and headquartered in Southern California, Maxima Racing Oils® is recognized as one of the most coveted brands in the racing industry. More than 3 decades of active involvement in professional racing has led to powerful technology and a full array of market leading products. The company continues its heritage by playing an active role in the sport and racing communities. Maxima is a race-inspired, product driven company which formulates, develops, and manufactures high-performance oils, lubes and ancillary products. The essence of the Maxima brand is communicated through hundreds of championships with world class racers, tuners and teams who rely on Maxima for unsurpassed performance in high-stress conditions without fail.