Self-Extinguishing

Self Extinguishing garments are made from material that is not inherently flame retardant, but are chemically treated to become flame resistant. They are NOT designed for use in ARC flash or flash fire applications. When a flame source is removed from the treated material, the material will self-extinguish within a given time frame. The treated material can melt and drip and has a limited life span dependent on washings and what the garment is exposed to. Performance is established using the ASTM D6413 test method.

EZ-Cool®

FR Treated Hi-Vis Hard Hat Visor and Neck Shade

396-801FR

Available Colors:

Hi-Vis Yellow
  • Size: OS
  • Packed: 144/Case
  • Country of Origin: China
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Product Attributes

Fabric: Mesh / Polyester

Mesh adds a great deal of breathability to the garment.Polyester provides durability and comfort.

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Product Description

Product Description

Ideal for construction, automotive, mining, farming, medical/emergency services, food services, oil rigging, industrial sites, and sporting events.

Features

  • Extended visor at front to block sun from worker's eyes
  • Drape at back to shade the neck
  • Elastic at back for secure fit
  • High visibility fabric and silver reflective tape
  • Shields eyes and neck from the sun
  • FR treated up to 25 washes
  • Fits most cap style and full brim hard hats
  • EZ-Cool Hard Hat Visor
  • Hi-Vis Yellow
  • Elastic Back
  • Silver Reflective Tape
  • FR Treated Polyester
  • 25 Washes
  • Universal Fit
Standards Met

Self-Extinguishing

Self Extinguishing garments are made from material that is not inherently flame retardant, but are chemically treated to become flame resistant. They are NOT designed for use in ARC flash or flash fire applications. When a flame source is removed from the treated material, the material will self-extinguish within a given time frame. The treated material can melt and drip and has a limited life span dependent on washings and what the garment is exposed to. Performance is established using the ASTM D6413 test method.