The technical datasheet for Shell Alvania R3 highlights its design for high-performance standard industrial operations. It utilizes high-viscosity index mineral base oils combined with a lithium soap thickener and targeted additives. Key Physical Properties 3 Thickener Type: Lithium Soap Base Oil Type: Mineral Kinematic Viscosity (at 40°C): Approximately 100 cSt Kinematic Viscosity (at 100°C): Approximately 9.2 cSt Dropping Point: > 180°C (IP 396) Cone Penetration (Worked, at 25°C): 220–250 (0.1 mm) Performance Benefits and Features
To maintain the "extra quality" integrity of Shell Alvania R3: shell alvania r3 grease datasheet extra quality
In recent years, Shell restructured its global product portfolio, re-engineering and renaming this classic formula under its modern banner: . This article breaks down the data metrics, key performance vectors, and operational benefits found within the original technical data sheet, alongside its direct modern equivalent. Technical Specifications: The Core Metrics The technical datasheet for Shell Alvania R3 highlights
The following data reflects the typical physical characteristics for the R3 (NLGI 3) grade: Typical Value NLGI Consistency Lithium Hydroxystearate Base Oil Type Mineral Oil Kinematic Viscosity @ 40°C Kinematic Viscosity @ 100°C Cone Penetration (Worked @ 25°C) 220–250 (0.1 mm) Dropping Point Operating Temperature Range -30°C to +130°C Key Performance Features Reliable High-Temperature Performance: This article breaks down the data metrics, key
Due to its "extra quality" performance and rigid consistency, Shell Alvania R3 is frequently used in:
: Often used in applications where re-greasing is infrequent. Water Pump Bearings : Performs reliably in the presence of water. Shell Iraq Safety and Handling Shell Alvania R3
This public link is valid for 7 days and shares a thread, including any personal information you added. This link or copies made by others cannot be deleted. If you share with third parties, their policies apply. Can’t copy the link right now. Try again later.