Mobil Glygoyle 30
Mobil Glygoyle 30 is a high-performance fully synthetic lubricant formulated using advanced polyalkylene glycol (PAG) technology. It is engineered for severe industrial applications where conventional mineral oils and many synthetic lubricants are unable to perform effectively, particularly in high-temperature and demanding operating environments.
One of the key advantages of Mobil Glygoyle 30 is its exceptional thermal and oxidation stability. The formulation resists degradation, sludge and deposit formation at elevated temperatures, helping extend oil life and reduce maintenance requirements.
Mobil Glygoyle 30 also offers excellent efficiency performance. Its low traction and friction characteristics help reduce energy consumption and operating temperatures, improving equipment efficiency and supporting longer component life.
Another important benefit is its strong wear protection. The advanced additive system provides reliable EP and anti-wear performance, helping protect gears, bearings and compressors under severe operating conditions. This contributes to improved reliability and reduced downtime.
Mobil Glygoyle 30 also provides excellent low-temperature fluidity due to its wax-free formulation. This enables smooth start-up and consistent lubrication across a wide operating temperature range, ensuring effective performance in both high and low temperature environments.
Mobil Glygoyle 30 is recommended for use in severe industrial applications including plastic calenders, paper machine bearings, enclosed gears (including worm gears) and compressors handling air, natural gas and process gases. It is particularly suited to applications requiring high efficiency and long lubricant life.
Physical characteristics include a kinematic viscosity of approximately 224 mm²/s at 40°C and 30.9 mm²/s at 100°C, with a specific gravity of approximately 1.006. Mobil Glygoyle 30 has a flash point of approximately 221°C and a pour point of approximately −41°C, supporting reliable performance across a wide range of operating conditions.
