The BARE ExoWear Vest provides the maximum thermal protection available in a neutrally buoyant exposure-protection garment and is designed for multi-sport use. OMNIRED™ Infrared Technology in the vest’s fabric converts your outbound body heat into infrared energy and reflects it back to your body for thermal warmth. 3-Layer Fabric protects from the harshest elements with materials that are water repellant, windproof, breathable, quick-drying, wicking, and anti-microbial. And because freedom of movement is essential in the water, ExoWear’s 4-Way Stretch provides more elasticity and breathability than the 2-Way Stretch found in similar vests. For maximum maneuverability, ExoWear Vest offers protection for your core, while allowing for maximum mobility with large arm holes. Great as a standalone product or under a wetsuit for additional warmth.
Whether diving, kayaking, or stand up paddle boarding, ExoWear’s innovative 3-Layer Fabric protects you from the harshest elements. An outer layer, membrane and inner fleece feature properties that are water repellant, windproof, breathable, quick-drying, wicking, and anti-microbial.
1. OUTER LAYER
UV resistant outer layer has a durable water-repellent finish to provide a protective shell that sheds water, absorbs less water, and increases drying time.
Windproof and highly breathable membrane provides maximum comfort during high-exertion watersports and helps regulate body temperature while preventing wind chill.
3. INNER FLEECE
Microban® Anti-Microbial with Hydrophobic technology and quick-dry fleece coatings mean less stink and a more easily packable suit to transport to your next destination or dive site.
Features and Benefits
- Maximum maneuverability with large armholes for mobility and comfort
- Ideal as a standalone product or under a wetsuit for additional warmth
- Flat seam stitching throughout for maximum flexibility, stretch and comfort
- OMNIRED™ Technology
- 3-Layer Fabric Technology
- 4-Way Stretch
- 3D Pattern for optimal shape and fit
- ExoWear slows thermal loss by 36% at 1ATM of pressure (proven in controlled lab thermal testing)