The ECOGARD S6311 Premium Cartridge Engine Oil Filter for Synthetic Oil is engineered to provide superior engine protection for a range of vehicles, including the Toyota Corolla 1.8L (2009-2016), Prius 1.8L (2010-2017), Prius V 1.8L (2012-2017), C-HR 2.0L (2018-2020), Matrix 1.8L (2009-2014), Prius Plug-In 1.8L (2012-2015), Prius Prime 1.8L (2017), Corolla iM 1.8L (2017), Lexus CT200h 1.8L (2011-2017), and Pontiac Vibe 1.8L (2009-2010). This filter is optimized for synthetic oils, supporting extended oil change intervals up to 10,000 miles, thereby reducing maintenance downtime and operational costs for fleet operators. ([truegether.com](https://www.truegether.com/ecogard-s6311-premium-cartridge-engine-oil-filter-for-synthetic-oil-fits-toyota-corolla-1-8l-2009-2016-prius-1-8l-2010-2017-prius-v-1-8l-2012-2017-c-hr-2-0l-2018-2020-matrix-1-8l-2009-2014/USER.7078b3a5-fb94-4d02-ba78-5107feeb7de5/listing.html?utm_source=openai)) Designed to meet the demands of modern engines, the S6311 filter features a synthetic blend media that delivers 99% efficiency based on ISO 4548-12 at 25 microns, effectively capturing contaminants that can cause engine wear. Its construction includes a one-piece spiral wound, corrugated center tube for maximum collapse strength, and a molded silicone anti-drain back valve that withstands extreme temperatures, ensuring consistent performance under various operating conditions. ([truegether.com](https://www.truegether.com/ecogard-s6311-premium-cartridge-engine-oil-filter-for-synthetic-oil-fits-toyota-corolla-1-8l-2009-2016-prius-1-8l-2010-2017-prius-v-1-8l-2012-2017-c-hr-2-0l-2018-2020-matrix-1-8l-2009-2014/USER.7078b3a5-fb94-4d02-ba78-5107feeb7de5/listing.html?utm_source=openai)) By incorporating the ECOGARD S6311 filter into your fleet maintenance program, you can enhance engine longevity and reliability, leading to reduced downtime and maintenance costs. Its compatibility with a wide range of vehicles makes it a versatile choice for diverse fleet operations, ensuring that your vehicles remain in optimal condition, thereby maximizing operational efficiency and minimizing unexpected repairs.