While it doesn't make sense for those with 20/20 vision to be placing any unnecessary lenses between their eyes and the road ahead, those who require glasses for driving may want to look into anti-reflective or AR coatings. Read on to find out a little bit more about this product and its benefits for help getting the facts straight before purchasing a new pair of glasses.
As the name implies, AR coatings can help reduce the reflections and glare that wearers often report during nighttime driving. These issues can be very distracting for glasses-wearers and can even lead to eye strain and headaches. AR coating can be applied to prescription lenses to reduce glare and its associated problems.
Reducing the glare from headlights and street lights can help drivers see better. This will help them avoid potential hazards and navigate more easily.
Glasses that don't feature AR coating often make it difficult for others to see people's eyes. Consumers who choose AR coated lenses find that people may respond to them more positively since they can read their facial expressions more accurately. This can increase their confidence which, while it is not as important as safe driving, constitutes a nice bonus of making the switch to AR-coated glasses.
Increased Lens Longevity
AR coating helps to prevent scratches and general wear by offering lenses an extra layer of protection. This helps to offset the marginally higher cost of purchasing glasses that feature this specialized coating.
AR coating can be applied to single field of vision glasses and more complex lenses. Bifocals, trifocals, and even progressive lenses can feature anti-reflective coating, making it easier for consumers to take advantage of its many benefits even when they're not on the road.
AR coated lenses don't change the way wearers view objects or lights, regardless of where they are in their fields of vision. All it does is reduce the amount of glare produced by them, helping them to see these objects clearer. This makes it easier to drive without being distracted by unexpected changes in vision.