SPYDER BOYS SKI DAY T-NECK

$39.99 $79.99
By SPYDER
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SPYDER BOYS SKI DAY T-NECK

The Spyder Boys Ski Day T-Neck is a high-performance technical base layer engineered to provide youth skiers with optimal thermal regulation and active moisture management. Constructed from a lightweight, grid-backed polyester fleece composition, this first-layer top creates a micro-climate close to the skin by trapping warm air while utilizing integrated channels to rapidly transport sweat away from the body. Designed with an athletic, low-profile fit, it integrates seamlessly into a technical layering system, eliminating bulk and friction when worn beneath insulated mid-layers or heavy alpine shell jackets.

Engineered with specialized youth-centric functionality, the Ski Day features a 360-degree stretch fabric matrix that allows for uncompromised mechanical mobility during high-velocity racing or terrain park riding. The deep center-front zipper utilizes a low-profile reverse coil track to allow young athletes to manually regulate core ventilation during intense ski runs or warmer spring conditions. Finished with ergonomic flatlock seams that completely prevent chafing against the skin and a protective high-standing collar to seal out biting mountain winds, this technical top ensures long-lasting comfort on the slopes.

Key Features

  • Advanced grid-backed moisture-wicking fleece fabric
  • 360-degree stretch matrix for maximum mechanical mobility
  • Deep center-front reverse coil zipper for core ventilation
  • Low-profile athletic fit tailored for seamless youth layering
  • Ergonomic flatlock seams to prevent friction and skin chafing
  • High-standing protective turtle neck collar
  • Quick-drying and highly breathable performance composition

Best For

  • First-layer youth technical base layering
  • Junior alpine skiing, snowboarding, and freeriding
  • High-output winter sports demanding active moisture control
  • All-weather resort riding and cold-weather mountain recreation
  • Essential core temperature management in sub-zero environments