Arlington LE Tech 10 Boots - White/Blue/Gold - US 9
Innovative, lightweight upper construction
Tech 10 chassis combines advanced lightweight microfiber and impact and abrasion-resistant Thermoplastic Polyurethane (TPU) shell
Frontal protection features a dual closure system with an internal microfiber flap, plus hook and loop fasteners for a precise fit closure beneath the buckle giving greater, micro-adjustable, precision which is convenient to operate
Soft microfiber gaiter helps seal out excessive water and dirt entry
Poly-fabric lining with 3D open cell foam incorporates anti-slip suede in heel area, keeping the foot located inside the boot
Dynamic Heel Compression Protector (DHCP), an innovative safety feature that includes a fully integrated collapsible heel area with expanded poly-foam to absorb high impact energies during a crash
DCHP features a directional impact protection system that significantly reduces the effect of excessive, potentially injury-causing, energy being transferred to the ankle and lower leg
Cold-forged, aluminum buckles are a result with an easier to operate, more durable and self-aligning closure that offer a positive hold across the upper surfaces of the boot
More streamlined with newer, lighter, more durable composite materials and a more integrated approach to the construction of the components which dynamically enhance the chassis of the boot and utilize more advanced bonding processes
Frontal Flex Frame gives the Tech 10 a complete and seamless flexion control system, from foot shell all the way up to shin plate, offering high-performance double motion control, preventing over-compression and hyper-extension
Engineered to -float- freely between the lower and upper boot construction, Frontal Flex Frame acts as a shock absorber by distributing energy across the boot frame while controlling forward and rearward flex, progressively releasing force which dampens and absorbs impact energies
Constructed from a dual density compound and combined with the rear blade system, protection is enhanced with progressive dampening of excessive torsional forces
