Ballistic Nuclear-Resistant Modular Shield 

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The Ballistic Nuclear-Resistant Modular Shield represents a revolutionary advancement in personal protective equipment for modern military forces. Designed to provide comprehensive protection against small arms fire, blast waves, radiation, EMP, and radioactive fallout, this shield combines cutting-edge materials with a highly modular and ergonomic design.

This next-generation shield is constructed from advanced composite materials, including fiberglass-reinforced polymer for the outer shell, ultra-high molecular weight polyethylene (UHMWPE) for ballistic resistance, and integrated copper mesh for electromagnetic pulse (EMP) protection. A key innovation lies in the collapsible composite side panels, which extend the shield’s protective surface without significantly adding weight or compromising mobility. The fully deployed form creates a semi-cylindrical barrier, offering enhanced protection not only for individual soldiers but also for teams when multiple shields are interconnected.

One of the core advantages of this shield is its hybrid defensive capability. While traditional ballistic shields are only effective against kinetic threats like bullets, this model offers radiation dampening for gamma rays, partial neutron absorption, thermal shielding against blast heat up to 2000°C, and full EMP shielding. This makes it particularly suited for operations in nuclear, chemical, biological, and radiological (CBRN) environments.

From a manufacturing perspective, the design leverages readily available advanced materials. UHMWPE and fiberglass composites are already widely used in aerospace and defense industries, ensuring scalable production at competitive costs. The mechanical components, such as locking hinges and telescopic brackets for the expandable side panels, are based on standardized metal alloys or high-strength polymers, requiring no specialized manufacturing facilities. This allows for mass production with flexible customization options, including different camouflage patterns or additional ceramic armor for high-risk deployments.

Market-wise, the shield holds strong commercial viability. Beyond military applications, it has clear utility for law enforcement, especially for riot control, bomb disposal units, and counter-terrorism operations. The growing geopolitical instability globally creates a steady demand for advanced personal protection gear. Additionally, the shield’s modular design and multi-layer protection features appeal to defense contractors, government agencies, and private security firms alike.

Its lightweight design—approximately 9 kg in full configuration—ensures it does not burden the user, compared to older generations of heavy steel-based shields. Furthermore, the shield’s ability to link with others to form mobile defensive barriers enhances its appeal for unit-level tactics. This feature is particularly innovative, enabling soldiers to create instant protective walls in trench warfare, urban combat, or fallout zones.

In terms of future prospects, the shield’s adaptability to evolving threats makes it an attractive long-term investment. Planned upgrades, such as graphene-reinforced panels, lighter neutron-absorbing materials, and integrated smart sensors for threat detection, further enhance its scalability.

In conclusion, the Ballistic Nuclear-Resistant Modular Shield is not merely a protective device but a technological leap forward in modern defense. It combines mobility, modularity, and multilayer protection in one compact package, ready for the demands of 21st-century warfare and disaster response. 

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  • About the Entrant

  • Name:
    Bekhzod Makhmatmurodov
  • Type of entry:
    individual
  • Patent status:
    none