With uppers made from a combination of suede leather and Cordura® fabric, the LOWA Zephyr is seen by both UK & US Special Forces as a highly regarded lightweight tactical boot. Part of the LOWA Task Force Collection, these dark brown boots come with LOWA Cross outsoles, which are built with a special lug-design and tread. This allows the LOWA Zephyr to excel in outdoor environments, as it provides wearers with unparalleled grip on numerous types of terrain and under almost any weather conditions.
Built with GORE-TEX® Extended Comfort Lining, these tactical mid-boots are designed to not only be functional but comfortable too. As ideal for hikers as they are for military personnel, these GORE-TEX® membranes have been specifically made for those who regularly take part in strenuous activity, be it over long periods or in short bursts.
Weighing in at just 560g each, LOWA Zephyr Mid GORE-TEX® Boots fulfils the requirement for those operating in a lightweight role. Don’t let this give you the impression that the LOWA Zephyr is not more than capable of holding its own, however. For instance, the two materials used to create the military boots’ uppers are hard-wearing individually but even stronger when they’re working together. Moreover, the Zephyr is built with LOWA MONOWRAP® 2 Sole Units that reinforce the boot and provides additional traction, as well as plastic stabilizers that support the wearer’s ankle.
In addition to dark brown, LOWA Zephyr GORE-TEX® Mid-boots are also available in a coyote tan colour for use with UK MTP or Multicam coloured types of uniform and clothing. The LOWA Task Force Zephyr range also includes Black, Desert, and Coyote OP coloured military and police boots.
The plastic stabilizer element features in all multi-functional footwear. It improves ankle & joint stability and torsional rigidity. The Stabilizer is an element of man-made materials.
This MONOWRAP® sole unit construction with a firm 7/8 TPU stabilizer is the most stable and offers optimal traction and perfect support with its high-quality surface materials.