chemical 3‐octanoylthio‐1‐propyltriethoxysilane
It is functional organosilane
The type is Crosile-966 silane ,whichi is better to equivalent silane in viscoelasticity, wet slip resistance, abrasion resistance, hardness, resilience, Mooney viscosity and tear strength. But Crosile-966’s viscosity is lower than others, the heat resistance is higher 0.8 ℃, the scorch time is shorter but vulcanization time is the same, the tensile strength is lower,and elongation at break is higher.
Application
1)Reduced rolling resistance
Incorporating Crosile-966 silanes into the tire tread can lead to greatly improved rolling resistance ratings. As a result, tires can use less energy and fuel to function, without compromising safety.
2)Desirable testing results
Crosile-966 silanes offer design possibilities by helping you to achieve the following effects in rubber compounds:
Improved Payne Effect
• Increased resilience
• Lower Tan δ values (50 °C to 60 °C)
• Better dynamic properties at low temperatures (-20 °C to +10 °C)
3)Better wet traction
Crosile-966 silanes enable the reduced rolling resistance needed for fuel efficiency while maintaining wet traction.
4)More efficient manufacturing
Not only do Silane Crosile-966 enable better tire performance, they can help accelerate manufacturing. Despite high-silica loading formulas, these advanced silanes promote better dispersion. And, a reduced compound viscosity is possible for easier processing, mixing, milling and extrusion