White Phosphorus Bomb Protected Fiberglass Fabric: Innovations and Applications

The demand for **White Phosphorus Bomb Protected Fiberglass Fabric** is increasing. White phosphorus bombs are widely used in the military as a weapon with high flammability and explosive characteristics. However, the high temperature and chemical damage caused by them pose a great threat to personnel, equipment and buildings.

1. White phosphorus bombs and their destructiveness
White phosphorus bombs contain highly flammable white phosphorus components. When they come into contact with air, they will burn rapidly and produce flames up to 800°C or more. White phosphorus bombs not only cause widespread fires, but also cause severe corrosion to human skin and even cause poisoning damage. Traditional protective materials often lose their effectiveness in the face of high temperatures and corrosive substances, so stronger and more heat-resistant materials are needed for protection.

2. Characteristics of fiberglass fabrics
Fiberglass fabrics have become an ideal protective material with their excellent high temperature resistance and chemical corrosion resistance. Its core features include:

High temperature tolerance: Fiberglass materials can withstand temperatures up to 700-800°C and will not deform or be damaged by flames and high temperatures.

Chemical inertness: Fiberglass has high resistance to many chemicals, especially acids, alkalis and some corrosive gases.

High mechanical strength: The fiber structure provides strong tensile strength and can maintain structural integrity even under severe impact.

3. Research and development of fiberglass fabrics for protection against white phosphorus bombs

In order to effectively protect against the destructive effects of white phosphorus bombs, researchers have improved the fiberglass fabrics so that they can protect the internal structure when white phosphorus bombs explode and burn. The main improvements include:

Surface coating technology: Add a high-temperature resistant coating to the surface of the fiberglass fabric, commonly used is alumina or silica coating. This coating forms a protective layer at high temperatures, further improving the material's high-temperature resistance and delaying the transfer of heat.

Multi-layer composite structure: A multi-layer composite design is adopted, and a ceramic layer or a fireproof cloth layer is added inside the fiberglass fabric to achieve layered insulation. Such a structural design can effectively absorb the impact of the explosion and block the high temperature from the outside.
Application of fire retardant coating: Apply a specific fire retardant coating on the fabric to form a carbonized layer when the white phosphorus bomb explodes to prevent direct flame attack.

4. Application fields
The application scenarios of white phosphorus bomb protective glass fiber fabric are extremely wide, especially in the fields of military and industrial fire protection:

Military protective equipment: used to make military tents, armored vehicle linings and soldiers' protective clothing, which can greatly improve the survival rate of personnel under white phosphorus bomb attacks.
Aerospace: In the field of aerospace, glass fiber fabric can be used as external insulation material for rockets and thermal insulation and protective material inside aircraft.
Industrial fire protection: used for building materials such as fire doors and fire shutters to provide effective fire protection for high-risk chemical plants, storage facilities and other places.