Bunkker
Kinetic Resistance & Blast Geometry
In high-risk environments, structural integrity must be engineered to withstand extreme forces, from kinetic impacts to seismic disturbances. Beyond conventional construction standards, true protective infrastructure requires advanced materials, optimized geometry, and integrated defense mechanisms capable of preserving both the structure and its occupants under the most severe conditions.
BUNKKER develops reinforced structural systems designed to absorb, deflect, and isolate high-energy events, ensuring maximum resilience against blast, intrusion, and ground-coupled shocks.
Technical Data
Concrete: High-Performance Fiber-Reinforced (HPFRC)
Blast Rating: GSA Level D / NATO STANAG 2280
Entry: RC6 / FB7 Certified
Structural Envelope Engineering
The physical shell of a BUNKKER facility is engineered to withstand extreme kinetic energy transfers and high-magnitude seismic shocks.
We utilize High-Performance Fiber-Reinforced Concrete (HPFRC) with a compressive strength exceeding 120 MPa, integrated with a high-density rebar matrix.
The structure’s “Blast Geometry” is designed to deflect overpressure waves rather than absorb them, utilizing curved surfaces and reinforced structural diaphragms to prevent spalling and progressive collapse during multiple-strike scenarios.
Access Control & Blast Entry Systems
The primary access points are the facility's critical threshold, featuring Heavy-Duty Blast Doors cladded in ballistic-grade steel and ceramic composites (RC6/FB7 certified).
These entries utilize an automated dual-seal “Airlock” mechanism that provides both a gas-tight NRBC barrier and a physical defense against forced entry, including thermal lances and high-velocity projectiles.
Seismic Isolation & Kinetic Decoupling
The entire kinetic envelope is decoupled from the surrounding soil via Base Isolation Bearings, protecting internal sensitive electronics and occupants from the devastating ground-coupled vibrations of near-miss explosions or tectonic shifts.