The formula of the nano ceramic additive is upgraded, and the nano ceramic particles form a protective film on the surface of the metal friction pair of the engine, so that sliding friction is changed into rolling friction, cold start and repeated start-stop wear of the engine are obviously reduced, and excellent start-stop protection is provided; The enhanced "self-repair" function automatically repairs damaged parts during engine operation, achieving excellent protection for key parts of the engine.
Fully synthetic engine oil with excellent performance meets the oil demand of high-standard gasoline engines and light-duty diesel engines.
Nano antifriction technology can effectively save fuel and reduce emissions.
Outstanding turbocharger protection performance, effectively prolonging service life;
Excellent cleaning and dispersing performance, keeping the engine clean for a long time.
Excellent viscosity control and low temperature performance meet the needs of new cars and energy-saving engines.
Scope of application
It is suitable for cars equipped with medium and large displacement high performance gasoline engines, sport cross-National SUV and other vehicles.
Turbocharger deposit control is improved by 126.8%*, fully coping with the high temperature and high speed challenges of turbocharged engines.
*Data is based on DV6C, Toyota Turbocharger Deposit 100h and other standard experimental test results compared with ACEA standards.
Valve system wear is effectively reduced by 54.25%*, reducing wear and enhancing protection.
Bearing anti-wear is effectively reduced by 69.23%*, reducing wear and enhancing protection.
*Data based on DV6C, Sequence IVB, Sequence VIII and other standard experimental test results compared with ACEA standards
Valve system wear is effectively reduced by 54.25%*, reducing wear and enhancing protection.
Bearing anti-wear is effectively reduced by 69.23%*, reducing wear and enhancing protection.
*Data based on DV6C, Sequence IVB, Sequence VIII and other standard experimental test results compared with ACEA standards
| ITEMS | Typical Data | Testing Methods | |
| SAE Grade | 0W-20 | GB/T14906 | |
| Kinematic Viscosity (100ºC), mm2/s | 8.250 | GB/T265 | |
| Low temperature Viscosity, mPa·s (-35ºC) | 5540 | GB/T6538 | |
| Flash Point ,ºC | 236 | GB/T 3536 | |
| Pour Point,ºC | -43 | GB/T 3535 | |
| Foam Tendency/Stability(ml/ml) | Sequence I (24ºC) | 0/0 | GB/T 12579 SH/T 0722 |
| Sequence2 (93.5ºC) | 0/0 | ||
| Sequence 3(24ºC) | 0/0 | ||
| Sequence 4(150ºC) | 40/0 | ||
| ITEMS | Typical Data | Testing Methods | |
| SAE Grade | 5W-30 | GB/T14906 | |
| Kinematic Viscosity (100ºC), mm2/s | 11.510 | GB/T265 | |
| Low temperature Viscosity, mPa·s (-35ºC) | 4200 | GB/T6538 | |
| Flash Point ,ºC | 236 | GB/T 3536 | |
| Pour Point,ºC | -41 | GB/T 3535 | |
| Foam Tendency/Stability(ml/ml) | Sequence I (24ºC) | 0/0 | GB/T 12579 SH/T 0722 |
| Sequence 2(93.5ºC) | 0/0 | ||
| Sequence 3(24ºC) | 0/0 | ||
| Sequence 4(150ºC) | 40/0 | ||
| ITEMS | Typical Data | Testing Methods | |
| SAE Grade | 5W-40 | GB/T14906 | |
| Kinematic Viscosity (100ºC), mm2/s | 14.010 | GB/T265 | |
| Low temperature Viscosity, mPa·s (-35ºC) | 6120 | GB/T6538 | |
| Flash Point ,ºC | 235 | GB/T 3536 | |
| Pour Point,ºC | -38 | GB/T 3535 | |
| Foam Tendency/Stability(ml/ml) | Sequence I (24ºC) | 0/0 | GB/T 12579 SH/T 0722 |
| Sequence 2(93.5ºC) | 0/0 | ||
| Sequence 3(24ºC) | 0/0 | ||
| Sequence 4(150ºC) | 40/0 | ||
