PROCESSING TIMES OF SERIALIZED ITEMS CAN BE 2-4 WEEKS
LAUNCHING 3/18/ 25
The Disruptive Deep Flute (DDF) is an external barrel structure designed to significantly reduce primary (blast compression and expansion) and secondary (sinusoidal resonance) wave events in barrels, improving accuracy, reducing heat, and extending barrel life. Using data from the 2024 TACOM HO Finite Element Analysis (FEA) study, Noveske’s Combat Systems Development & Support program launched an R&D project. The goal was to determine the optimal surface area per linear inch to effectively disrupt these wave events while maintaining the lightweight barrel contour already used by U.S. Special Operations personnel.
NOVESKE DDF SPECS
1) Seven (7) Longitudinal Flutes
2) Standardized .980″ Outer Diameter, Minimum Bore Wall Thickness,
and .125″ of rounded cut at depth
3) .250” Maximum Width
4) Fluted maximum length of barrel, minus 1.050″ break for a .9375″ gas block journal
5) Total Surface Area per Linear Inch of Fluted Barrel:
a) .224 Bore Barrel – 4.0487sqin (vs 3.06sqin Standard Contour) +32.31%
b) .243 Bore Barrel – 4.0891sqin (vs 3.12sqin Standard Contour) +31.06%
c) .264 Bore Barrel – 4.1446sqin (vs 3.19sqin Standard Contour) +29.92%
d) .308 Bore Barrel – 4.2362sqin (vs 3.32sqin Standard Contour) +27.59%
6) More accurate due to decreased sinusoidal resonance
(vibration effecting the stability of the bullet)
7. 25%-40% increase in cooling speed
8) 8%- 13% decrease in weight compared to our standard contour
ACCURACY
Constriction of the barrel’s Second Moment of Area (axial flexion) by
increasing the barrel’s moment of inertia (structural/material resistance to flexion), vastly
reduces load irregularities translated from the barrel to the projectile in accelerated transit down the rifled bore. This reduction in muti-axis wave mode functions allow the longitudinal axis of the projectile to remain better aligned with its velocity vector, thus decreasing precessional
instability and increasing trajectory resilience.
THERMAL DAMPING
As a byproduct of the drastic reduction in vibration facilitated by the Disruptive Deep Fluting, transfer of kinetic energy into thermal energy as Variable Heat is reduced by 10%, while the
cooling speed of the barrel is increased by 25-40% internal temperature at the throat.
BARREL-LIFE-INCREASE
Material failure in barrels is caused by the exertion of a force impulse wherein the flexion derived by that force exceeds the material stiffness provided by its temperature moment. The disruptive deep fluting reduces both the flexion imposed on the barrel by the accelerated force impulse and maintains a higher material stiffness due to its ability to maintain a lower temperature, thus increasing barrel life well beyond that of non structured barrels of the same given metallurgy.
