Saw Guide Oil
Saw Blade & Guide Oils are high performance, naturally tacky and readily biodegradable lubricants for heavy duty applications requiring a high level of lubricity and anti-wear & anti-corrosion protection.
Saw Blade & Guide Oils contain specially selected EP/Extreme Pressure and AW/Anti-Wear additives and naturally present extremely high Viscosity Index. Developed to replace the usual mineral oil based lubricants in order to provide a greater performance and reduce environmental footprint.
Saw Blade & Guide Oils are produced in two viscosity classes 40 and 100.
Areas off application
Saw Blade & Guide Oils are designed for the lubrication of stationery power saws and cutting equipment in timber processing facilities.
Characteristic features
- Excellent lubricating properties - far superior than mineral oils
- Naturally greater adhesion than mineral oils
- Protected against polymerization
- Improved anti-corrosion & anti-wear protection
- Increased overall system efficiency
- Positive impact on CO2 emissions
- Readily biodegradable – Over 98% Biodegradability within 21 days
- EU Ecolabel Certificate of environmental excellence
Parameters
| Viscosity index | The viscosity index (VI) indicates the change in kinematic viscosity of oils with temperature. A higher VI means less change in viscosity with temperature. BIONA bio-oils with a VI of up to 220. >210 |
|---|---|
| Flash point | The lowest temperature at which enough vapor escapes from a heated sample above its surface into the air that the resulting mixture of vapor and air ignites when an auxiliary flame is brought close to it and then extinguishes again. >230 °C |
| Pour Point | The pour point of a liquid is the temperature below which the liquid loses its flow characteristics. -30 °C |
| Biodegradability in 28 days | Biologically sufficiently rapid decomposition of oil without effect on fauna and flora. Biological decomposition monitored by dissolved oxygen analysis over 28 days. >60 |
| Kin. viscosity at 40 °C | The viscosity of a fluid is a measure of its resistance to gradual deformation by shear stress or tensile stress. 40 cSt |
| Density at 15 °C | 914-934 kg/m3 |

