- Chemical resistance delivered through the ATG® LiquiTech® technology platform
- Ultra lightweight synthetic coating combined with an industry leading super light seamless knit liner provides excellent comfort, sensitivity, fit and dexterity
- Tailored cuff - keeping the cuff close to your hand so maintaining your fingers at the tip of the glove to maximize dexterity
- Micro-cup non-slip grip finish allows for a controlled and superior grip in oily and wet applications and is only applied where it is actually needed - in the palm area - to ensure flexibility isn't compromised
- All ingredients used in the manufacturing and construction of this product are compliant with the REACH legislation
- This glove has been laundered prior to final packaging making it clean and safe for use
- The Oeko-Tex® association has evaluated and certified this product as skin safe from the second it comes into contact with the skin
- The Skin Health Alliance has awarded professional dermatological accreditation following review of the scientific dossier behind this product
-
Specification Sheet
https://externalassets.unilogcorp.com/ASSETS/DOCUMENTS/ITEMS/EN/PIP_56635L_Specification_Sheet.pdf
-
Specification Sheet
https://www.arbill.com//ASSETS/DOCUMENTS/ITEMS/EN/PIP_56635L_Specification_Sheet.pdf
-
Specification Sheet
https://externalassets.unilogcorp.com/ASSETS/DOCUMENTS/ITEMS/EN/PIP_56635L_Specification_Sheet.pdf
Coating |
Nitrile |
Color |
Black/Green |
Cuff Style |
Gauntlet/Tailored |
Length |
14 in |
Lining |
Nylon |
Material |
Lycra®/Nitrile/Nylon |
Palm Material |
Lycra®/Nitrile/Nylon |
Resists |
Abrasion/Cut/Chemical/Hydrocarbon Derivatives/Puncture and Tear |
Size |
L |
Style |
Non-Slip Grip/Seamless Knit/Micro-Cup |
Thickness |
51.18 mil |
PIP® MaxiChem® Chemical-Resistant Gloves, L Size, Lycra®/Nitrile/Nylon Palm, Lycra®/Nitrile/Nylon, Black/Green, Non-Slip Grip/Seamless Knit/Micro-Cup Style, Nylon Lining, Gauntlet/Tailored Cuff, Nitrile Coating, 14 in Length, 51.18 mil Thickness, Resists: Abrasion/Cut/Chemical/Hydrocarbon Derivatives/Puncture and Tear