What is the LINEAR DIFFUSER ARRAY?
See Through Suppressor Video of the LINEAR DIFFUSER ARRAY - ROC556L
The Linear Diffuser Array is contained within every SIEGE Suppressor. It is engineered to redirect propellant gasses radially through an arrangement of turbulent and laminar flow cells. Each series of cells flows into the next until propellant, lead, copper, and carbon are expelled at the exit. The internal geometries greatly reduce the potential for long-term build-up or fouling.
SIEGE Suppressors are by its design self-cleaning. There is no “dead” space inside the silencer for material to build up over time. Every time you shoot the silencer it scrubs itself clean.
The same design mechanism that promotes the free flow of gasses from cell to cell also diminishes back pressure significantly. The large surface area and the unique diffuser geometries effectively reduce the sound and flash signature without the excessive blowback experienced with more common designs.
Within the Linear Diffuser Array is the contiguous bore. It is a design feature that offers increased erosion resistance compared to conventional designs due to the flow characteristics of propellant gasses and unburned gunpowder through the suppressor. Because there are no angular features and no baffles used in the internal construction of the suppressor, the propellant gasses and unburned gunpowder have no angular barriers to react against and therefore erode over time.
In addition, the contiguous bore is a safety feature which will guide the bullet through the bore in the event of an internal strike due to misalignment.
SIEGE Suppressors are made using our proprietary bonding process, not via 3D printing or using traditional welding methods. Due to the use of our proprietary bonding process we are able to:
-Create a silencer that is bonded into an incredibly strong single monolithic structure.
-Exploit specific metallurgical attributes of different materials
-Create complex geometries that would be impossible with conventional machining or 3D printing i.e. the Linear Diffuser Array.
-Optimize targeted regions for hardness, ductility, and erosion resistance
