Armor Synthetic Diesel Engine Oil Specifications

Synthetic diesel engine oil delivers maximum protection for heavy-duty diesel engines. Viscosity maintenance occurs over a wide range of temperatures, ensuring consistent performance.

Oxidation resistance and breakdown prevention extend engine life under tough conditions. Sludge prevention and deposit removal keep the engine clean and efficient.

Heavy-duty diesel engines benefit from wear protection and corrosion resistance. Dirt and contaminant removal maintain optimal engine operation.

Applications include heavy-duty diesel engines in demanding environments. Compatibility exists with Euro 5 engines featuring exhaust systems.

Euro 3 and Euro 4 engines work with this oil if specified by the manufacturer. Base oils and additive technology provide reliable results.

Key Specifications List

• Viscosity maintenance across various temperatures for stable operation.
• Sludge and deposit prevention to avoid buildup in the engine.
• Dirt and contaminant removal for cleaner internal components.
• Wear and corrosion protection to safeguard engine parts.
• Oxidation resistance for prolonged oil effectiveness.
• Engine cleanliness through effective filtration and stability.

Application Specifications

• Heavy-duty diesel engines operating in tough conditions.
• Euro 5 engines with integrated exhaust systems.
• Euro 3 and Euro 4 engines as per manufacturer guidelines.

Additional specs highlight premium base oils combined with advanced additives. Synthetic formulation supports fuel efficiency in diesel applications. Temperature range stability prevents varnish formation during extended use.

Engine protection focuses on reducing friction and maintaining lubrication. Contaminant handling ensures long-term reliability in industrial settings.

Diesel engine oil specs include resistance to thermal breakdown for high-heat scenarios. Overall, formulation prioritizes durability and performance metrics.

Compatibility with various diesel systems enhances versatility. Oil breakdown resistance contributes to fewer maintenance needs.

Performance in real-world conditions involves steady viscosity control. Additive technology aids in corrosion mitigation over time.