Echo Boardshort 21
Sublimated graphics and screen-printed logos infuse the Echo Boardshorts 21" with a bold look that reflects your performance on the waves. Four-way stretch fabric follows your every move, and quick-dry technology keeps the water from weighing you down. Hydrofuse™ welded details create a seal that keep you and your essentials protected from rushing surf and other extreme conditions.
- Four-way O Stretch ripstop fabric and stretch fly create a natural fit that moves with you
- Hydrofree™ technology resists retaining water to reduce drag
- Hydrofuse™ welded inseams, hems and pocket block out moisture
- Outseam: 21" on 28"- 40" waist size
- 86% Polyester, 14% Spandex
Taking water repellence to the extreme, this technology makes products "hyper-hydrophobic." That means they resist water absorption and water retention, and dry quickly.
Welded seams that maintain durability with reduced weight, their low profile virtually eliminates snagging and chafing. Select designs also utilize the technology for weatherproofing.
Reduced weight is an obvious benefit to comfort, and our innovation focuses on achieving it with a level of durability that respects the heritage of Oakley performance technology.
O Stretch Ripstop
Combines HydroFree™ water repellence with the free movement, adaptable fit and shape retention of resilient stretch (up to 120% from its relaxed state). Ripstop texturing reduces skin contact for less abrasion and greater freedom of movement.
A prime feature of Oakley performance boardshorts, our zipper-free Lycra design lays flat to provide the ultimate in comfort on a surf board.
Achieved without thread, this fusion of textiles along seams reduces the threat of abrasion during movement, and is particularly beneficial during golf swing. In some products, the technology is used to prevent water entry.
Four-way Stretch with Ripstop
A feature of premium Oakley apparel, it combines HydroFree™ water repellence with the free movement, adaptable fit and shape retention of resilient stretch (up to 120% from its relaxed state).