The Vehicle Fire Blanket is a high-performance safety tool designed for extinguishing vehicle fires, including those in cars, SUVs, Land Cruisers, and particularly in electric vehicles and vehicles with solar panels. This blanket is made from a robust, high-tensile, and tear- resistant fabric, which is lightweight at 400gsm and coated with silicone on both sides to enhance its resistance to high temperatures and flames. Engineered to control and contain electric car fires effectively, it deprives oxygen, mitigates smoke and toxic fumes, and contains fires quickly to prevent further damage.
Key features include its ability to withstand temperatures up to 1200° C/2200° F for over 50 hours, compliance with ISO EN 13501-1 & ASTM D6413 standards, and reusability with easy cleaning for prolonged use. The blanket's simple deployment, facilitated by color-coded loops for quick identification, makes it a vital safety tool that not only safeguards vehicles but also prevents secondary damage to the surroundings. Available in customizable sizes, it suits various vehicle types, from small cars to large pick-ups and even includes options for light electric vehicles like e-scooters and e-bikes.
High silica glass fiber has outstanding thermal resistance. It can withstand extremely high temperatures, often exceeding 1000°C (1832°F) without significant degradation. This makes it ideal for applications where exposure to high heat is common, such as in fire protection, insulation, and aerospace industries.
This property of ablation resistance arises from its high silica content, typically exceeding 96%. This robust resistance to heat erosion makes it an ideal choice for applications where exposure to intense heat or flames is prevalent. Industries such as aerospace, automotive, construction, and manufacturing utilize high silica glass fiber in environments where thermal erosion is a concern, ensuring longevity and safety in various operational conditions.
The structure of High Silica Glass Fiber enables it to have a high dielectric strength, which is the maximum electric field that a material can withstand without experiencing electrical breakdown. This property allows it to effectively resist the flow of electrical current, making it suitable for use in high voltage applications.
High silica glass fiber demonstrates exceptional resistance to acidic environments due to high silica content, which shields the fiber from the corrosive effects of most acids. It finds extensive use in chemical processing plants, laboratories, and industrial manufacturing facilities where acids are prevalent either as part of processes or within the environment.
| Size (m) | Thickness (mm) | Weight (Kg) | Working Temperture (? ) |
| 3×4 | 0.55±0.05 | 6.6±0.6 | 1100 |
| 6×8 | 0.55±0.05 | 26.5±2.5 | |
| 6×9 | 0.55±0.05 | 30±3 | |
| 10×10 | 0.55±0.05 | 55±5 |