FIRE ISOLATOR BLANKETS
Rapid Fire Containment, Simplified
The Importance of The Original Fire Isolator Blankets
When a llithium-ion battery or vehicle fire erupts, you can’t put it out with water or chemicals—they only make it worse. Without proper containment, these blazes can cause catastrophic damage to your building and neighboring structures.
Our high-silica blankets are your only safe option: wrap them around the fire to smother flames, seal in toxic gases, and let the blaze burn out under controlled conditions.
Rated for over 50 hours at 2,200 °F and with a 25-year shelf life, these blankets act as insurance from total-loss scenarios, protecting people and property when every second counts.
Packaged for instant access in Knox boxes, trolleys, or backpacks.
How Fire Isolator Blankets Work
Unfold
the blanket around the fire source.
Smother
flames by cutting off oxygen.
Seal
in toxic smoke and gases under high-silica layers.
Sustain
containment at up to 2,200 °F for 50+ hours—buying vital response time.
What Sets The Original Fire Isolator Blankets Apart?
Open‑Weave Silica
Breathable, high‑silica cloth lets flammable gases escape, preventing dangerous pressure buildup—unlike thicker, impermeable alternatives.
Proven in Live EV Fire Tests
In over 15 real‑world thermal runaway scenarios, we’ve seen no major explosions—just reliable flame suppression and safe gas dispersion.
Safety By Design
Fueled by continuous R&D and the latest fire‑safety findings, these blankets remain the go‑to solution for first responders and fleet operators tackling lithium‑ion battery fires.
FAQ's
Specialized high-silica fibers smother flames and trap toxic fumes, halting both lithium-ion battery and internal-combustion fires without water or standard extinguishers.
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Large (18×28 ft): Cars and trucks
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Medium (9×9 ft): E-forklifts and scooters
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Small (6×6 ft): Battery pallets and small equipment
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Yes. Standard models handle up to 7 deployments; heavy-duty versions up to 30. Inspect for damage before each use.
Thermal runaway in damaged or overcharged batteries generates extreme heat and releases toxic gases—posing serious burn, inhalation and explosion risks.
Cell damage, manufacturing defects, overcharging or short circuits can trigger rapid, uncontrollable chemical reactions known as thermal runaway.
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