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Fire Fighting

EN Standards


New, modern lightweight design, Structural Fire Fighting Helmet, with excellent protection properties. Flame retardant and high temperature resistant glass-fiber reinforced thermoplastic. Anti-scratch and anti-fog coated integrated visor and goggles. Full head protection, including neck and face. Integrated adjustment system. Interior shock absorber. Reflective elements for better visibility in low-light conditions. Neck protector, available in aluminized fibre, Nomex (or wool for Holland style). 3 point chinstrap, tested to prevent skin irritation (Fire retardant aramid tape). Extreme temperature resistance (up to 1,000°C in a 10 second flash over flames). Long-term temperature resistance (radiant heat test 14 kW/m2). High resistance to mechanical impacts. Chemical resistance. Low-temperature classification -30°C. Electrical insulation capacity E2 and E3. Type B3b. Optimal relationship between protection and comfort with wide range of accessories and personalisation. Weight 1445 g ± 30 g , 1515 g ± 30 g (with aluminized neck protector).PAB VIDEO:https://youtu.be/9mDrgee49x0

Material: Flame retardant and high temperature resistant glass-fiber reinforced thermoplastic

Anti-scratch and anti-fog coated integrated full face visor and goggles

Colour: White, Yellow, Red, HI-VIS Yellow, Lumino

Size: One shell size for head sizes from 52 to 64 cm

EN 443:2008 – Structural Fire Fighting Helmet
EN 14458:2018 – High performance anti-fog and anti-scratch goggles and full face visor

1 in stock

What Is An Arc Flash?

An arc flash is a sudden release of electrical energy that occurs when current jumps across a gap between two conductors or from a conductor to a ground. The arc flash generates an intense burst of heat and light that can cause serious injuries, damage to equipment, and fires.

Arc flashes can occur in a wide range of electrical systems and equipment, including switchgear, transformers, motors, and other high-voltage components. They can be caused by a variety of factors, including equipment failure, human error, or a short circuit.

The intense heat generated by an arc flash can cause severe burns, as well as ignite clothing and other materials in the surrounding area, leading to secondary fires. The bright light from the arc flash can also cause temporary or permanent vision damage.

To prevent arc flash incidents, it’s important to follow proper electrical safety procedures, including wearing appropriate personal protective equipment (PPE), de-energizing equipment before working on it, and maintaining a safe distance from energized equipment.

Understanding Arc Ratings and Calories

Now that you understand FR clothing is tested and given an arc rating, you know that the arc rating measures the amount of heat the flame resistant fabric blocks when exposed to electric arc. The arc rating is the number of calories that the garment is expected to “absorb” if exposed to an electric arc. Arc rating is, in essence, the level of protection provided to you, the wearer.

Calorie is the unit of measure of the heat energy of an arc flash and the protective level of FR clothing. The bigger the calorie number, the greater the heat energy level of arc flash and the greater the protective level of the clothing. You will be protected from an electric arc if your clothing has a higher calorie arc rating than the calories of heat generated by the arc.

While it does not matter if the fabric has an Ebt,  ATPV and or ELIM value, it is important to pay attention to the calorie level the fabric can support* (as expressed in cal/cm2)