LIFT FIBERWIRE A5 IMPACT NITRILE MICROFOAM
LIFT FIBERWIRE A5 IMPACT NITRILE MICROFOAM - Large is backordered and will ship as soon as it is back in stock.
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Payment
Payment
- Credit Cards: We accept major credit cards, including Visa, Mastercard, American Express, and Discover.
- Apple Pay & Google Pay: Simplify your checkout process using these digital wallets.
- Shop Pay: For faster checkouts and secure payment processing.
Shipping
Shipping
Ground, 2nd Day Air and Next Day Air available !
Returns
Returns
At Harbor Workwear, we aim to ensure you’re completely satisfied with your purchase. If you need to return an item, you have 90 days from the date of delivery to initiate a return.
Eligibility for Returns:
To be eligible for a return:
- The item must be in its original condition—unused, unworn, with all tags still attached, and in its original packaging.
- You’ll need the receipt or proof of purchase.
Please note, returns must be authorized before sending any items back. Items returned without prior authorization will not be accepted.
LIFT FIBERWIRE A5 IMPACT NITRILE MICROFOAM
Description
Description
Designed for environments with elevated cut, impact, and abrasion risks, the LIFT FiberWire™ A5 Impact Crinkle Latex Glove features a seamless 15-gauge liner constructed from high-density polyethylene (HDPE) and glass fiber, delivering ANSI/ISEA 105-2016 A5 cut resistance. This glove integrates a thermoplastic rubber (TPR) dorsal impact shield that provides flexible protection across the fingers, knuckles, and metacarpals while maintaining mobility.
- Liner Construction: 15-gauge seamless knit blend of HDPE + glass fiber for high tensile strength and consistent cut resistance
- Cut Rating: ANSI/ISEA 105-2016: A5, EN388:2016: Cut Level E (TDM-100 Test Method)
Impact Protection: Back-of-Hand TPR Protection: Full-length fingers, knuckles, and metacarpals. EN388 Impact Rating: P (Pass)
- Coating: Palm Material: Nitrile Microfoam
- Coverage: Full palm and fingertips
- Properties: Enhanced grip in wet/dry conditions; chemical and caustic resistance in contact areas
