Good demulsibility and anti-foam properties.Outstanding thermal and oxidation stability.The performance benefits of Hydraulic Oils include: Home All Product Categories Hydraulic Oils HYDRAULIC OIL 46 Surrounding Businesses – Emergency Contact List.Essential Products Hi-Tec Oils new products with essentials Range comprises Anti-Bacterial Handwash, Hand Sanitiser, Disinfectant Surface Cleaners, Sanitiser Surface Sprays and Mechanic Gloves.Biodegradable, Food Grade & Fire Resistant Oils.Hi-Tec Oils Motorcycles range is a guaranteed quality, premium choice for your vehicle. Motorcycles Hi-Tec Oils Four-stroke Oil range is designed to achieve high performance combined with the latest developments in oil formulation and additive technology to deliver the best results and protection for your engine.Hi-Tec Oils Marine range is a guaranteed quality, premium choice for your vehicle. Marine Hi-Tec Oils Four-stroke Oil range is designed to achieve high performance combined with the latest developments in oil formulation and additive technology to deliver the best results and protection for your engine.The viscosity index of hydraulic system oil should not be less than 90. The way viscosity changes with temperature is reflected by the Viscosity Index: the smaller the viscosity change is the higher the viscosity index.
#Hydraulic oil viscosity chart full#
You can download full chart in PDF: Viscosity-Temperature-Chart.pdf or use online tool: TEMPERATURE-VISCOSITY CHART. Viscosity-Temperature chart for most popular hydraulic oil: For example, a lubricant with a VG value of 22 will have an average viscosity of 22 cSt (centistokes) at 40 degrees C: The actual VG value signifies a lubricant’s average viscosity at 40 degrees C.
#Hydraulic oil viscosity chart iso#
The International Standards Organization created the ISO VG (Viscosity Grade) in response to the need for a globally recognized viscosity designation. This is a generic chart for viscosity grade selection in depend of ambient temperature: For example, see recommendations from EATON. Generally, optimum operating viscosity of the hydraulic oil should be between 16 cSt (80 SUS) and 40 cSt (180 SUS).Īs a rule, the manufacturers of hydraulic components give hydraulic fluid viscosity recommendations in accordance with type of their pump you use in the system. In general, an oil which matches the viscosity requirements of the pump, will also be satisfactory for valves. Conversely, a fluid which is too thin may allow an accelerated rate of wear and additional slip losses. A fluid which is too viscous may prompt cavitation. Hydraulic components will operate efficiently only within a specific viscosity range, optimum operating range for each of them. As the viscosity decreases (when temperature increasing), the mechanical efficiency will increase due to low forces:
As the temperature increases, liquid viscosity decreases and leakage becomes more significant, reducing the volumetric efficiency. Kinematic viscosity for some common liquids you can see at The Engineering ToolBox. NOTE: Equations above are for fluid with specific gravity 0.876 (like petroleum oil) and at fluids temperature 37.8☌ (100☏). For a quick and an approximate conversion you can use next formulas depends on viscosity range: SUS to cSt The conversion from Centistokes to Saybolt Universal Seconds in terms of calculations is specified by the ASTM D2161 and is not simple. In North America are more popular kinematic viscosity units Saybolt Universal Seconds (SUS) or Seconds Saybolt Universal (SSU). The SI unit for kinematic viscosity is m 2/s but the more common unit is the centistoke (cSt): The symbol for kinematic viscosity is the Greek letter nu (ν). The kinematic viscosity is the ratio of the dynamic viscosity μ to the density of the fluid ρ: It is easier to measure and more common to report the kinematic viscosity of a fluid. s), but the more common unit is the centipoise (cP):įor example, the dynamic viscosity of water at 20☌ is 1.00 cPīritish unit of dynamic viscosity, is the reyn, named in honour of Osbourne Reynolds:.The SI unit for dynamic viscosity is the pascal-second (Pa The symbol for dynamic viscosity is the Greek letter mu (µ). There are dynamic and kinematic viscosity are usually common for calculations. The viscosity is a measure of the fluid’s resistance to flow. Selecting the ISO VG (Viscosity Grade) for your system.Understanding the optimum operating viscosity range.Dynamic and kinematic viscosity in SI and British unit.