RAVENOL Motobike 4-T Ester SAE 10W-30

Inactive options are available upon request

Category: Motorbike engine oil
Item number: 1172111
Viscosity: 10W-30
Specification: API SN
Oil type: Synthetic oil
Application area: Motorcycle

RAVENOL Motobike 4-T Ester SAE 10W-30 is a future-oriented engine oil which was especially produced for 4 stroke motorbikes. It provides a fuel saving operation of the engines. Because of its synthetic components and a balanced innovative additivation it is suitable for superior engines of motorbikes with wet couplings and oil lubricated couplings.

With RAVENOL Motobike 4-T Ester SAE 10W-30 a solid and high loadable engine oil was developed. The excellent cold start behaviour provides an optimum lubrication safety during the cold run phase.

RAVENOL Motobike 4-T Ester SAE 10W-30 fulfils the high tech demands of the latest powerful engine generation.

Application Note

RAVENOL Motobike 4-T Ester SAE 10W-30 is suitable as a high performance low friction engine oil for all motorbikes in case the specification SAE 10W-30 JASO MA/MA2 is requested.

Characteristics

  • A quick lubrication of the engine
  • A low evaporation tendency, therefore a lower oil consumption
  • Safety against sludge accumulation, cokings and corrosion even under unfavourable operating conditions
  • Guarantee of the function of the hydro tappets at all temperatures
  • No oil limited deposits in combustion chambers, at the piston ring and valves
  • Unchanged viscosity during the whole oil change interval, a high viscosity index
  • Neutral against sealing materials

Technical Product Data

PropertyUnitDataAudit
Density at 20 °Ckg/m³851,0EN ISO 12185
ColourgelbbraunVISUELL
Viscosity at 100 °Cmm²/s12,0DIN 51562-1
Viscosity at 40 °Cmm²/s78,9DIN 51562-1
Viscosity Index VI148DIN ISO 2909
CCS Viscosity at -25 °CmPa*s5660ASTM D5293
Pourpoint°C-36DIN ISO 3016
Noack Volatility%wt.3,3ASTM D5800
Flashpoint°C260DIN EN ISO 2592
tbnmg KOH/g7,9ASTM D2896

All indicated data are approximate values and are subject to the commercial fluctuations.