By incorporating top-of-the-line materials like GORE-TEX and Vibram with a weight-saving platform, we made our tough, versatile work boot feel like the kind of boot you want to put on at the end of a long day. This new last is designed to cup your heel for a secure fit while offering a little more room in the toe box to accommodate feet that are carrying heavy loads. It also comes with a dual-density EVA midsole for extra shock absorption and comfort. The oil- and slip-resistant outsole has a low profile 90-degree heel making it versatile enough for indoor and outdoor work. For really tough jobs it has an abrasion-resistant heel cap, an all-leather upper, a non-metallic safety toe and a waterproof, breathable GORE-TEX liner.
FULL-GRAIN LEATHER UPPER
To ensure its quality, we put our leather through six different tests before making our selection. Our full-grain leathers are the strongest and most durable form of leather.
100% waterproof and breathable, GORE-TEX® liners ensure that no water gets in, while allowing sweat and moisture to get out.
SPEED LACE SYSTEM
Our special hardware allows you to tighten from toe to top with one swift tug for a secure, tight fit.
ELECTRICAL HAZARD (EH) PROTECTION
Meets or exceeds ASTM F2892-11 EH. Electrical hazard (EH) footwear is manufactured with non-conductive electrical shock resistant soles and heels.
NON-METALLIC TOE (NMT)
Our non-metallic toe does not transmit heat or cold. Nor will it set off metal detectors. As expected, it meets or exceeds ASTM F2413-11 M I/75 C/75 EH standards.
Added safety for boots used on steep terrain, climbing in and out of equipment, and use with certain tools.
VIBRAM® VICIOUS OUTSOLE
Oil- and slip-resistant with a low-profile 90° heel.
Lightweight, seamless support with a roomier fit in the toe box and snug fit in the heel.
HOW IT FITS
The DLE-01 last was designed to be an extension of the foot with superior forefoot and heel capture, stability and a more anatomical shape for comfort. The additional space in the toe box allows the foot to naturally react when bearing a heavy load or changing directions laterally in high intensity environments.