Muck Boots Arctic Ice Tall Wellington Boots
Colour = Black + Grey + Brown
Sizes = UK6-14
Featuring an 8mm neoprene bootie with fleece lining wrapped in layers of soft rubber so your feet will stay warm and dry in the most extreme conditions.
Features:
· 100% Waterproof
· 8mm Neoprene Bootie for Comfort and Performance (5mm Mid)
· Cool Weather Lining: Soft, Insulation, Light-weight, Performance Materials for Warmth and Comfort
· Extended Rubber Coverage
· Rugged Spandura Upper for Durability
· Lightweight Midsole for All Day Comfort and Support
· bioDEWIX Anti-Microbial Footbed Insert Topcover with NZYM for Odor Control and Moisture Management
· Vibram Arctic Grip A.T for Wet Ice Traction
· Improved Grip on Wet and Dry Surfaces
Closure | Pull On |
Customised | No |
Style | Wellies |
Personalise | No |
Shoe Shaft Style | Knee High |
Upper Material | Rubber |
UK Shoe Size | 6, 7, 8, 9, 10, 11, 12, 13, 14 |
Vintage | No |
Brand | Muck Boots |
Character | Boots |
EU Shoe Size | 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49 |
US Shoe Size | 7, 8, 9, 10, 11, 12, 13, 14, 15 |
Calf Width | Regular |
Country/Region of Manufacture | China |
Outsole Material | Rubber |
Season | Autumn |
Season | Winter |
Department | Men |
Shoe Width | Standard |
Type | Boot |
AU Shoe Size | 7, 8, 9, 10, 11, 12, 13, 14, 15 |
Handmade | No |
Muck
Boots Arctic Ice Tall Wellington
Boots
Colour = Black + Grey + Brown
Sizes = UK6-14
Featuring an 8mm neoprene bootie with fleece
lining wrapped in layers of soft rubber so your feet will stay warm and dry in
the most extreme conditions.
Features:
·
100% Waterproof
·
8mm Neoprene Bootie for Comfort and Performance (5mm
Mid)
·
Cool Weather Lining: Soft, Insulation,
Light-weight, Performance Materials for Warmth and Comfort
·
Extended Rubber Coverage
·
Rugged Spandura Upper for Durability
·
Lightweight Midsole for All Day Comfort and Support
·
bioDEWIX Anti-Microbial Footbed Insert Topcover
with NZYM for Odor Control and Moisture Management
·
Vibram Arctic Grip A.T for Wet Ice Traction
·
Improved Grip on Wet and Dry Surfaces