How does synthetic gasoline engine oil sn provide all-round lubrication protection for the precision parts of gasoline engines?
Publish Time: 2024-11-28
Synthetic gasoline engine oil sn provides all-round lubrication protection for the precision parts of gasoline engines through its unique chemical composition and performance characteristics.1. Selection of base oilSynthetic base oil: synthetic gasoline engine oil sn uses synthetic base oils, such as polyalphaolefins (PAO) or ester compounds. Compared with mineral oils, synthetic base oils have higher purity and stability and provide better lubrication performance. Synthetic base oils can maintain low viscosity under both high and low temperature conditions, reducing engine wear and energy consumption.Multi-grade viscosity grades: synthetic gasoline engine oil sn usually has multiple viscosity grades to provide appropriate lubrication at different temperatures, ensuring that the engine is always fully lubricated during startup and operation.2. Strengthening effect of additivesAnti-wear additives: synthetic gasoline engine oil sn adds anti-wear additives such as zinc dithiophosphate (ZDDP) and sulfurized olefins (sulfurized olefins), which form a protective film on the metal surface, reduce friction and wear, and extend the service life of engine parts.Antioxidants: Antioxidants (such as amines and phenolic compounds) can inhibit the oxidation reaction of oil products at high temperatures, prevent the formation of sludge and carbon deposits, and maintain the cleanliness and lubrication performance of oil products.Detergent dispersants: Detergent dispersants (such as polyamines and polyethers) can suspend harmful substances such as sludge and carbon deposits in the oil to prevent them from adhering to engine parts and keep the engine clean.Rust and corrosion inhibitors: Rust and corrosion inhibitors (such as sulfonates and organic acids) can protect metal surfaces from moisture and chemical erosion, prevent rust and corrosion, and extend engine life.Viscosity index improvers: Viscosity index improvers (such as polymethacrylates) can increase the viscosity index of oil products, maintain a stable viscosity over a wide temperature range, and ensure the consistency of lubrication performance.Friction modifiers: Friction modifiers (such as organic molybdenum compounds and phosphates) can reduce the friction coefficient, reduce energy loss and wear, and improve the fuel economy of the engine.3. Performance under high temperature and high pressure environmentHigh temperature stability: synthetic gasoline engine oil sn can maintain low evaporation loss and oxidation stability under high temperature environment, prevent oil deterioration and failure, and ensure the durability of lubrication performance.High pressure bearing capacity: synthetic gasoline engine oil sn has high oil film strength and shear resistance, can maintain the integrity of oil film under high pressure environment, prevent direct contact of metal parts, and reduce wear and friction.4. Low temperature starting performanceLow temperature fluidity: synthetic gasoline engine oil sn has a low pour point and high low temperature fluidity under low temperature conditions, can quickly reach the lubrication parts, reduce wear and fuel consumption during startup.Quick lubrication ability: synthetic gasoline engine oil sn can quickly form a lubricating oil film, ensure that the engine is fully lubricated immediately after cold start, and reduce cold start wear.5. Clean and environmental performanceReduce sediment: synthetic gasoline engine oil sn can effectively reduce the formation of sediments such as sludge and carbon deposits through the action of detergent dispersant, and keep the engine clean and efficient.Environmentally friendly emissions: synthetic gasoline engine oil sn can reduce friction and wear inside the engine, improve fuel efficiency, reduce exhaust emissions, and meet environmental protection requirements.Synthetic gasoline engine oil sn provides all-round lubrication protection for the precision parts of gasoline engines by selecting high-quality synthetic base oils and adding high-performance additives. Under high temperature and high pressure environments, synthetic gasoline engine oil sn can maintain stable lubrication performance and reduce wear and friction; when starting at low temperatures, it can quickly lubricate the engine and reduce cold start wear; through the effects of detergent dispersants and antioxidants, it maintains the cleanliness of the oil and extends its service life.