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Men's Justin Blueprint 11" Work

$269.00
Tan Gaucho
style 4440
Color: Tan Gaucho (Tan)
Width:
Size:
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The Blueprint Tan Gaucho, 11" tall J-Max® men's pull-on work boot features a leather exterior crafted for durability.

It's built for comfort with the J-Max® Double Comfort System® that utilizes a mesh spacer foot bed cover that provides extra comfort and a healthy environment for the foot and the J-Max® removable orthotic inserts with J-Flex Flexible Comfort System® with Justin Jel® offers a multi-density polyurethane foot bed including low-density foam to cushion initial impact and provide energy return as you walk. The encapsulated air cells to virtually eliminate compression set so the bounce of cushioned energy return is present for the life of the boot strategically placed polyurethane gel pads in the heel arch and ball area to reduce muscle fatigue for unparalleled comfort. This boot also features the Dri-Lex® cooling system that wicks moisture away from the foot, leaving the insole dry and cool as well as a durable dual-density polyurethane slip resisting outsole. This boot meets ASTM F2892 safety footwear standards.

Details

  • Upper: Premium Full Grain Leather
  • Lining: Woven Fabric
  • Insole: Removable Orthotic
  • Toe Shape: Round
  • Construction: Sewn Seat
  • Shank: Non-Metallic
  • Outsole: Unit, slip resisting rubber with defined heel
  • Safety Features: EH, This boot meets ASTM F2892 safety footwear standards
Slip Resisting - Slip-resistant footwear, also known as non-slip footwear or anti-slip footwear, is specially designed to provide enhanced traction and stability on slippery surfaces, reducing the risk of slips and falls. This type of footwear is essential in industries and work environments where workers are exposed to wet, oily, greasy, or otherwise slippery floors, such as hospitality, healthcare, food service, and manufacturing.
Electrical Hazard - Electrical Hazard footwear is designed to impede the flow of electricity through the shoe and to the ground, reducing the likelihood of electrocution, in accordance with ASTM F2413-11.