What is the main benefit of 37.5 Technology in apparel products?
37.5 Technology speeds evaporation and removes humidity next to your skin, helping to balance your temperature, control moisture and keep you in your ideal comfort zone longer.
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37.5 Technology speeds evaporation and removes humidity next to your skin, helping to balance your temperature, control moisture and keep you in your ideal comfort zone longer.
In independent consumer testing, users consistently prefer products with 37.5 Technology. For example, in one consumer test of insoles made with and without 37.5 Technology, 95% of users preferred the insole with 37.5 Technology for thermal management and 89% preferred the insole with 37.5 Technology for moisture management.
In a study done by scientists at the University of Colorado Boulder, thermoregulation clothing with 37.5 Technology was scientifically proven to increase athletic performance by up to 26% by reducing the increase of core temperature during activity. Proven to decrease the rate of core temperature buildup and keep you cool more effectively than wicking. Scientifically …
How has 37.5 Technology been proven to increase performance? Read More »
Trapped moisture in your clothing, footwear or bedding is an amplifier, making hot feel hotter and cold feel colder. 37.5 Technology works with your body to adapt to its needs, keeping you in your ideal comfort zone longer. For example, testing at Inside Climate demonstrated a relative temperature-balancing effect of 5 – 19° F (or …
Fabric property tests in a laboratory setting do not always correlate to human comfort. To test how fabrics interact with the temperature and humidity of human subjects and their relative comfort value, we test a broad range of apparel, footwear and bedding with and without 37.5 Technology. The temperature regulating fabrics with 37.5 Technology have …
The temperature-regulation benefits of 37.5 Technology have been proven in multiple studies to increase performance and keep you in your ideal comfort zone longer.¹ ¹ “Beneficial effects of cooling during constant power non-steady state cycling”; Homestead, E.P., Ryan, B.J., Goodrich, J.A., Byrnes, W. C.; International Journal of Sports Medicine 2017; 38: 141-149.