New- Coat Number 15 - High Speed Swimmer ((top)) Site
In a significant leap for both competitive sports and biomechanical engineering, the (officially the TT-15 ) has emerged as the definitive benchmark for elite swimming performance. Far from a piece of apparel, this "coat" of data and technique focuses on the 15-meter sprint segment , widely considered the most critical phase of high-speed swimming. The Science Behind "Number 15"
Results may vary based on swim technique and water temperature. Always test the coating on a small area of sensitive equipment before full application.
At a retail price point of $89.99 for a 120ml kit (treating up to 3 full wetsuits or 20 applications to skin), the sits in the premium tier. However, for the competitive athlete, the cost-per-race math is simple. New- COAT NUMBER 15 - High Speed Swimmer
Elite competitors in disciplines like Dynamic with Fins (pool) or Constant Weight (depth) have tested Coat No. 15 on carbon monofins. Early reports indicate a 0.3–0.5 second reduction per 50 m lap—significant in world record attempts.
To understand why this launch is such a big deal, we have to look at the physics of swimming. As a swimmer moves through water, they battle two primary forces: (water sticking to the skin/suit) and Pressure Drag (the bow wave created by the body). In a significant leap for both competitive sports
In the relentless pursuit of aquatic perfection, the gap between a podium finish and an also-ran is often measured in hundredths of a second. Swimmers spend thousands of hours in the pool, honing their technique, building their aerobic capacity, and perfecting their starts. But in the modern era of competitive swimming, the athlete is only as good as the technology they wear.
High-speed swimming generates friction heat on the skin. The new coating works as a thermal bridge, pulling heat away from the muscles and dispersing it into the wake. Users report feeling "cooler" during anaerobic sprints, delaying the onset of lactate burn. Always test the coating on a small area
Military and research AUVs operating at 15–25 knots (e.g., torpedo-shaped gliders) can extend range by up to 40% without increasing battery mass.