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Women's Justin Rush 8" Composite Toe Waterproof Work Boot

$213.00
Pine Chocolate
style SE4360
Color: Pine Chocolate (Brown)
(Width B)
Size:
  • Select Size and Width for Availability

The Rush in Cedar Brown is an 8” tall Ladies’ Stampede Rush boot that’s built simple, yet strong.

Built for everyday work and play, this waterproof boot is designed to go wherever the day will take it. Inside, it features a removable Ortholite® insole that provides all-day comfort and an oil- and slip-resisting outsole to keep you steady on your feet. This boot is Electrical Hazard rated.

Details

  • Material: Water Buffalo
  • Toe Shape: Square
  • Heel: Walking/Block
  • Outsole: Rubber
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.
Waterproof - Waterproof footwear is designed to prevent water from entering the interior of the shoe or boot, keeping the wearer's feet dry and comfortable in wet and damp conditions. This type of footwear is commonly worn in various work environments, outdoor activities, and recreational settings where exposure to rain, mud, puddles, and wet surfaces is likely.
Composite Toe - Composite toe footwear is a type of safety footwear designed to protect the toes from potential hazards in various work environments. The term "composite" refers to the use of non-metallic materials, often a combination of materials like fiberglass, Kevlar, carbon fiber, or other reinforced plastics, to create the protective toe cap. Composite toe caps offer protection similar to steel or alloy toe caps but with the advantage of being lighter in weight.
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.