Bullets Manfacturing Process
The manufacturing process used to produce the projectile.
|
CNC |
---|---|
Box Quantity | 25 |
Best Used For
The Primary or Secondary intended use for the projectile: Hunting, Defense, Target/Competition, Military, Law Enforcement.
|
Hunting |
Bullet Caliber | .458 |
Bullet Weight (gr)
The weight of the projectile in grains.
|
265.00 |
Ballistic Coefficient (G1) | 0.168 |
Product Type | Bullets |
Gun Type
This designation is controlled by the length of the barrel. For example, a 10 inch barrel would be considered a handgun since it would attach to a handgun stock; whereas a 24 inch barrel would be attached to a rifle stock and designed accordingly. NOTE: The Bureau of Alcohol, Tobacco, Firearms, and Explosives (ATF) defines a short-barreled rifle as “a rifle having one or more barrels less than sixteen inches in length and any weapon made from a rifle (whether by alteration, modification, or otherwise) if such weapon, as modified, has an overall length of less than twenty-six inches.”
|
Muzzleloader |
Minimum Twist Rate | 1:30 |
Bullet Minimum Velocity (fps)
The Minimum Velocity required to obtain Terminal Performance.
|
750 |
Sectional Density | .165 |
Fracturing bullets are designed to deliver maximum terminal performance. Fracturing bullets are produced from either solid copper or solid brass and are pre-stressed at specific points so that after a predetermined penetration depth, the razor-edge petals deploy, releasing an energy spike and then separate and radiate outward from the primary path of the bullet. The bullet shank, now back to bore diameter, continues penetrating straight and deep along the initial impact path. Unlike traditional expanding bullets which mushroom and dramatically limit the bullet's penetration and provide only one wound path, SSK's Fracturing projectile creates an initial energy transfer, multiple wound paths, and a deep penetrating base – a far more effective bullet.