TIMBERLAND PRO® A1XVC Hypercharge 8" Waterproof Work Boot
TIMBERLAND PRO® A1XVC Hypercharge 8" Waterproof Work Boot Description
TIMBERLAND PRO® FOOTWEAR - Men's Timberland PRO A1XVC Hypercharge Black EverGuard™ Leather 8" Waterproof EH Work Boot
STYLE: 8 inch Waterproof EH SR Work Boot
STYLE NO: TB0A1XVC001
Premium full-grain leather
Waterproof and non-waterproof styles
Cement construction for flexibility
Stable Stride™ technology stability platform
Exclusive Independent Suspension Network™ system for superior control, support and agility
Anti-Fatigue Technology polyurethane footbed for shock absorption and energy return
Breathable and moisture-wicking lining with anti-microbial treatment for odor control
WATERPROOF MEMBRANE: Delivers maximum waterproof protection and blood-borne pathogen resistance. Meets ASTM F1671-07 safety standards. Timberland's waterproof footwear incorporates a variety of advanced waterproofing materials, treatments and processes.
BLOOD-BORNE PATHOGEN RESISTANT: Breathable membrane helps protect from diseases caused by blood-borne pathogens. Meets ASTM F1671-07 safety standard.
ELECTRICAL HAZARD PROTECTION: Provides secondary underfoot protection against live electrical circuits, electrically energized conductors, parts or apparatus. Meets ASTM F2412-11, ASTM F2413-11 and ASTM F2892-11 standards.
EVER-GUARD™ LEATHER: Highly abrasion-resistant leather that enhances durability in rugged jobsite conditions.
RUBBER OUTSOLE: Slip resistant, Abrasion resistant, Non marking Outsole.
ANTIMICROBIAL ODOR CONTROL: Antimicrobial treatment to prevent and control odors.
ANTI-FATIQUE TECHNOLOGY: A comfort system designed with shock-absorbing, geometrical technology that returns energy back to the foot to deliver all-day support and comfort.
INDEPENDENT SUSPENSION NETWORK: Multi-density outsole with Confort lugs that act independently of each other and adapt to varying worksite conditions, providing an additional layer of cushioning, comfort and stability.
STABLE STRIDE™ TECHNOLOGY: Designed to provide lateral stability on slanted and uneven surfaces to help reduce ankle rolling, slippage and injury.