Oakley Flak 2.0 Prizm Golf Replacement Lenses 9295LS 05
These Authentic Oakley Flak 2.0 Prizm Golf non-polarized replacement lenses (9295LS 05) are sold new with tags. Designed as replacement lenses for compatible Flak 2.0 eyewear, they’re a practical option if you need to refresh worn or damaged lenses. Check the listing for details on exact compatibility, included items, and any packaging notes. Price shown is USD 58.54, and the order ships with free shipping as stated in the listing.
| Location | Vero Beach US |
| Shipping | Free shipping (check listing for details) |
| Seller |
themadswaddler
100.0% positive · 3406 feedback
|
| Listing | FixedPrice · Active |
| Start time | 2025-02-08T20:54:42.000Z |
| Magnification Strength | -0.5 |
| Compatible Brand | Oakley |
| Lens Technology | Anti-Reflective, Polarized, Tinted, Prizm Polarized, High Definition Optics (HDO) |
| Fits Brand | Oakley |
| Light Transmission Rating | 30% VLT medium To Bright Light |
| Color | VIOLET |
| Compatible Model | Oakley Flak 2.0 |
| Fits Model | Flak 2.0 |
| Modified Item | No |
| Vintage | No |
| Brand | Oakley |
| Department | Men |
| Type | Replacement Lens |
| UV Protection | 100% UV |
| Lens Material | Polycarbonate |
| Model | Oakley Flak 2.0 |
| Style | Sport |
| Theme | Sunglasses, golf |
| Lens Color | Violet |
These are Authentic Oakley Flak 2.0 Prizm Golf Non-Polarized Replacement Lenses in a Violet color. They are compatible with Oakley Flak 2.0 sunglasses, featuring anti-reflective, tinted, and non-polarized lens technology with a 30% VLT rating for medium to bright light conditions. They come with a storage bag. The lenses offer 100% UV protection and are made of polycarbonate material. They are designed for men's and women’s sport use but especially golf as you are able to track the ball better against the sky and on the fairways; you can actually follow it all the way into the cup for your hole-in-one! Visual Light Transmittance (VLT) indicates amount of light transmitted through the lens. The higher, the percentage the more light entered through the lens.
