Men's FR Tech Cool Down Active Flame-Resistant Long Sleeve Shirt

$119.00
Our Men's FR Tech Cool Down Active Long Sleeve shirt is the ideal solution for keeping you comfortable while being your last line of defense in dangerous situations. The lightweight, 6-ounce knit fabric offers no-melt/ no-drip protection comprised of a proprietary blend of high-performance fibers designed to absorb and wick away moisture. This high-neck style features Flex-Stitch for added comfort, and ribbed-knit cuffs, and is inherently flame-resistant.

Made with 50% Oxidized Acrylic/30% FR Rayon/ 17% P-Aramid, 3% Anti-Static Polyester. Made in the USA of imported fabric.

  • Specs & Features:

    Superior Protection against extreme heat, fire, and molten metal. CAT 2 | ATPV 17.0. Fabric meets or exceeds ASTM F 1506/ NFPA 2112/ NFPA 1971/ NFPA1975/ NFPA1977

    Super Soft Fabric Wicks Away Moisture with a lightweight, stretch knit that is breathable and odor-resistant.  Inherently flame-resistant fabric with no harsh chemicals or toxins makes it safe to wear next-to-skin and delicate tissue.  Perfect for all-day wear. 

    Set-In Sleeve Construction  Set-in sleeve construction for enhanced movement and fit. 

    Designed with Minimal Seams and flat stitching to help reduce chaffing.

    Color: Carbonite    

Care InstructionsWash in cold water on delicate.  DO NOT USE AN INDUSTRIAL CLEANING SERVICE. Do not use bleach or fabric softener. Hang dry when possible. Dry on low heat if necessary, using caution not to over dry. Do not dry clean.  

 

    Laundering does not affect the protective properties of our products. Because they are inherently flame resistant, the thermal protection will not wash out or wear away. Seraphina Safety apparel can be worn daily as part of a total PPE solution, providing significant value to your overall protection.

    Wash in cold water, gentle cycle. DO NOT USE AN INDUSTRIAL CLEANING SERVICE. Do not use fabric softener or bleach. Hang dry when able or tumble dry low. Do not dry clean.  Failure to launder correctly can result in loss of flame-resistant properties.

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