Military and Defence
Frontier Protection Worldwide has developed an innovative technology based on interpenetrating polymer networks MD Matrix, incorporating nano particles. This technology is designed to provide superior protection for various military assets, equipment, and structures. Here's a breakdown of the key features and applications mentioned.
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1
Bleves & Jetfire Protection:
The technology appears to offer protection against explosions and fires, such as those caused by Boiling Liquid Expanding Vapor Explosions (BLEVEs) and jet fires.
2
Blast Mitigation & Energy Absorption:
The coating technology likely includes features that mitigate the impact of blasts and absorb energy, which is crucial for protecting military assets from explosive events.
3
Projectile Protection:
The technology provides anti-ballistic coatings for personnel, armored vehicles, private vehicles, and other assets. This implies protection against projectiles and ballistic threats.
4
Extreme Weather Protection:
The coating is designed to withstand extreme weather conditions, including high temperatures, cold, corrosion, and extreme abrasion resistance. This ensures that military assets can operate effectively in various environmental conditions.
5
Resistance to Harsh Chemicals:
The technology is resistant to harsh chemicals, which is essential for military applications where exposure to chemical agents may occur.
6
Low Weight and Density:
An added advantage is that the protection is achieved at lower weights and densities. This can be critical for military applications, where reducing the overall weight of vehicles and equipment is often a priority for mobility and operational efficiency.
Frontier Protection Worldwide's technology is a comprehensive solution for enhancing the protection and durability of military assets, offering a range of benefits including resistance to extreme conditions, projectiles, and harsh chemicals, as well as blast mitigation and energy absorption. The use of interpenetrating polymer networks with nano particles suggests a cutting-edge approach to achieving these protective properties.