Is Synthetic On Oil Filter more durable than normal products?
Yes,
synthetic oil filters are generally designed to be more durable than traditional or "normal" oil filters that use conventional paper or cellulose filter media. The increased durability of synthetic oil filters is due to the advanced materials and construction techniques used in their design. Here's why synthetic oil filters tend to be more durable:
Synthetic Filter Media: The key factor contributing to the durability of
synthetic oil filters is the use of synthetic filter media. Synthetic fibers are engineered to be stronger, more resilient, and more resistant to wear and tear compared to traditional paper media. This allows the filter to maintain its structural integrity and filtration efficiency over a longer period.
Resistance to Heat and Chemicals: Synthetic oil filters are often constructed with materials that have higher resistance to heat, chemicals, and other contaminants. These materials can withstand the harsh conditions within the engine compartment, including high temperatures and exposure to various chemical components present in engine oils.
Higher Dirt-Holding Capacity: Synthetic filter media can hold a greater amount of captured contaminants without becoming clogged. This means that the filter can continue to function effectively for a longer period before requiring replacement. The ability to hold more dirt without restricting oil flow contributes to their overall durability.
Improved Structural Integrity: The synthetic filter media is often supported by synthetic backing material or other reinforcements. This enhances the filter's structural integrity and prevents media collapse, ensuring that the filter maintains its shape and performance over time.
Reduced Risk of Tear or Breakdown: Synthetic fibers are less susceptible to tearing or breaking down when subjected to high oil pressure or turbulence. This ensures that the filter media remains intact and can continue filtering effectively throughout its service life.
Extended Service Intervals: Due to their durability and higher dirt-holding capacity, synthetic oil filters may offer longer service intervals compared to conventional filters. This not only reduces the frequency of filter changes but also speaks to their ability to remain effective for extended periods.
Suitability for High-Performance Applications: The durability of synthetic oil filters makes them suitable for high-performance engines or vehicles that experience demanding conditions, such as racing or heavy-duty applications.
Is Synthetic On Oil Filter suitable for use in high performance engines?
Yes,
synthetic oil filters are often considered suitable for use in high-performance engines. The advanced design and construction of synthetic oil filters make them well-suited for demanding conditions and engines that require efficient oil filtration and protection.
Enhanced Filtration: Synthetic oil filters utilize synthetic filter media with finer fibers and smaller pores compared to traditional paper media. This allows them to capture smaller particles and contaminants that can be particularly problematic in high-performance engines .
Higher Dirt-Holding Capacity: Synthetic filter media can hold a greater amount of captured contaminants without affecting oil flow. In high-performance engines that experience higher RPMs and greater stress, having a filter with a higher dirt-holding capacity is beneficial.
Improved Oil Flow: Synthetic oil filters are designed to facilitate better oil flow, which is crucial for high-performance engines that demand efficient lubrication and cooling. Efficient oil flow helps maintain proper oil pressure and ensures that critical engine component s are adequately lubricated.
Durability: Synthetic oil filters are often constructed with durable synthetic materials that can withstand high temperatures, pressures, and the mechanical stresses associated with high-performance driving.
Extended Service Intervals: The higher dirt-holding capacity and overall efficiency of synthetic oil filters may allow for longer service intervals, which can be advantageous for high-performance vehicles that see frequent use.
Reduced Engine Wear: The advanced filtration provided by synthetic oil filters helps prevent abrasive contaminants from circulating through the engine, reducing wear on critical components and extending the engine's lifespan.
Improved Performance: Cleaner oil and efficient filtration provided by
synthetic oil filters can contribute to smoother engine operation, better fuel efficiency, and potentially increased horsepower.
Compatibility with Synthetic Oils: High-performance engines often benefit from using synthetic engine oils due to their enhanced performance characteristics. Synthetic oil filters are designed to be compatible with synthetic oils, allowing for a cohesive and optimized oil filtration system.
Suitable for Racing Applications: In racing or track-oriented applications, where engines are subjected to extreme conditions and extended periods of high RPMs, the durability and performance of synthetic oil filters can be particularly advantageous.