Showa Shell Tellus S2 M 32 46 68 Series Hydraulic Fluids, high-performance industrial hydraulic fluids, with Shell's unique patented technology, provide excellent protection and performance for most manufacturing and many mobile device operations. They resist damage under thermal or mechanical stress and help prevent the formation of destructive deposits that can reduce the efficiency of hydraulic power systems.
Showa shell tellus s2 m 32
Packing: 20L drum, 200L drum.
Showa shell tellus s2 m 46
Packing: 20L drum, 200L drum.
Showa shell tellus s2 m 68
Packing: 20L drum, 200L drum.
1.Industrial Hydraulics: A variety of hydraulic power applications in manufacturing and industrial environments.
2.Mobile Hydraulic Fluid Power Transfer Systems: Used in mobile hydraulic power applications such as excavators and cranes.
3.Marine Hydraulics: Suitable for marine applications where ISO HM hydraulic fluids are recommended.
1.Long life, saving equipment maintenance.
Showa Shell Tellus S2 M 32 46 68 series hydraulic fluids resist thermal and chemical damage and help extend equipment maintenance intervals. This minimizes sludge formation and provides superior performance in the industry standard ASTM D943 TOST test (Turbine Oil Stability Test), resulting in better reliability and system cleanliness.
2.Provides excellent wear protection.
The addition of zinc-based anti-wear additives to Showa Shell Tellus S2 M 32 46 68 is effective across the entire range of operating conditions, including low load and heavy load high load conditions, while performing well in a range of piston and vane pump tests.
3.Effectively maintain system efficiency.
Showa Shell Tellus S2 M 32 46 68 Superior cleanliness, superior filtration, and high-performance water separation, air release, and defoaming properties all contribute to maintaining or improving the efficiency of hydraulic systems.
During the transport and storage of oil, contaminants can cause filter clogging. The Showa Shell Tellus S2 M 32 46 68 filtrate is formulated to quickly release air without excessive foaming, contributing to efficient hydraulic power transfer and minimizing the effects of cavitation-induced oxidation on fluids and equipment.