The Balega UltraGlide Friction-Free No-Show Running Socks for Men and Women are perfect for runners who are vulnerable to hot spots—skin irritation that may end up in blisters on the feet. A highly technical sock, the UltraGlide features Balega’s proprietary Drynamix poly blend fiber, combined with friction-free nylon yarn, and a textile lubricant that reduces heat and chafing. Seamless construction, and anatomically cut left and right feet do away with excess fabric and bunching. Targeted cushioning across the top of the foot reduces lace pressure, and the heel and toe is reinforced for comfort and durability. A variable density metatarsal pad provides additional protection and give a boost to right through long runs. Compressive arch supports and the flat-knit structure hold the sock securely in place, whilst ventilation panels ensure breathability. The Balega UltraGlide Friction-Free No-Show Running Socks feature medium-low volume cushioning for performance and durability right through extended training and endurance events. Balega launched in 2003 and got down to create the world’s best performance running sock. Built to perfection, Balega socks are composed of extra fine yarn on high needle count machines and are hand-linked for an absolutely seamless design. Balega socks are 100 percent hand-inspected for quality assurance..
No-show, lightweight running sock with friction-free technology is ideal for managing hot spots, preventing blisters, and keeping feet cool and dry
Drynamix poly blend fiber is combined with friction-free nylon yarn, and comprises a textile lubricant into the fabric to reduce heat and chafing
Premium cut sock features anatomically contoured left and right construction, and seamless stitching to do away with excess fabric and bunching
Targeted cushioning reduces lace pressure, reinforces the heel and toe, and pads the metatarsal area, all without adding bulk
Flat-knit structure and compressive arch supports holds sock securely in place, whilst ventilation panels ensure breathability; medium-low volume cushioning