Electrical Protection

Anti-Static work boots For highly static environments

Anti-Static work boots

Most Steel Blue boots are Anti-Static, meaning they dissipate the amount of static electricity build-up on your body. In fact, they actually conduct the static electricity through the soles and into the ground.   

This offers a level of protection against ignition hazards such as flammable materials and gases.

If you work with flammable materials, ignitable gases, sensitive electronic equipment or in an environment that creates static electricity build-up (where you get ‘zapped’ from touching doors and machinery), you’ll benefit from these Steel Blue boots.

The Anti-Static range of Steel Blue safety boots complies with:

  • Australian and New Zealand Safety Footwear Standard AS/NZS 2210.3
  • International and European Safety Footwear Certification EN ISO 20345
  • American Safety Footwear Certification ASTM F2413

Steel Blue’s Non-Safety Anti-Static work boots also comply with Australian and New Zealand Safety Footwear Standard AS/NZS 2210.5, International and European Safety Footwear Certification EN ISO 20347, and American Safety Footwear Certification ASTM F2892

Anti-Static work boots should be cleaned and tested regularly to ensure the Anti-Static properties haven’t deteriorated. Flexing, contamination and moisture can change their electrical resistance.

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Steel Blue Campaign Remington Matters
Electrical Hazard (EH) boots Added electric shock protection

Electrical Hazard (EH) boots

Our non-conductive footwear is designed as a supplemental form of protection to the wearer from hazardous step potential (the difference in electrical potential between the feet) while standing on the ground. These Steel Blue boots are clearly marked and have a distinct yellow colour plug in the rubber sole. This footwear is not suitable where anti-static properties are needed.

Note: Electrical Hazard footwear is to be used in conjunction with primary protective equipment in areas and environments where there is a need to reduce the risk of electric shock due to accidental contact with live electric wires. EH safety shoes should not be used as the primary source of protection in an electrical hazard environment. A variety of methods such as maintaining appropriate distances, use of isolation methods, use of grounding methods for step voltage control, etc. should be considered to provide protection.

EH Series: Electric Shock Resistant: 18000 volts at 60 Hz for 1 minute in dry conditions, leakage current of less than 1 milliamperes. Meets requirements for American Standard ASTM F 2413 – EH.

Caution: EH protection is severely deteriorated in the following conditions:

  • Excessive wear on the soling material
  • Contamination by conductive materials. For example, soles can pick up metal shavings which may reduce the effectiveness of the protection
  • Exposure to wet or humid environments. In wet environments where the protective qualities of the footwear are compromised and where there is a step potential hazard, Dielectric overshoes should be used.

Care and Use of Electrical Hazards Boots:

  • Keep the shoes and outsoles free of conductive materials such as screws, nails and metal shavings.
  • Dry the footwear thoroughly after use.
  • Clean outsoles with a mild soap and warm water.
  • To avoid cracking, store footwear away from electric motors or electric fields.
  • Inspect footwear for any visible damage prior to use, such as punctures, tears, snags and cracking.
  • Dispose of the footwear if embedded with conductive materials, or if wear causes the outsole thickness to diminish noticeably. These conditions will result in significant reduction or elimination of the footwear’s protection if the wearer steps on an electrical circuit.
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