The present invention relates to a method for manufacturing a rifle barrel, and more particularly to a process that creates a more accurate, durable, rigid, and stable barrel.
This barrel process invention has several benefits, which include: Lighter in weight, the Barrel is made out of Titanium and Stainless Steel. Titanium is a light weight metal making this barrel.
Better Accuracy: Because of the design, process and materials used, it creates a better/stronger, more rigid, better stability, and more durable, which all make for a more accurate barrel.
Greater Thermal Conductivity: Because Titanium cools at a much faster rate than stainless steel, the Titanium draws the heat out of internal stainless-steel portion of the barrel.
Withstands higher levels of heat and higher temperature operations better than other barrels, which adds to the stability.
Less harmonic noise, which creates less wear on the barrel, better for accuracy and an overall greater life span of the barrel.
Internal Barrel Portion is known to be the rifled section, with a desired twist rate and rifling to spin the bullet as the bullet travels through the center of the core.
The outside of the core has a specific interface size 0.001-0.002 larger than that of the bore of the mating of the External Outer Barrel Contour Portion (
It provides the proper applications on each end. At the entrance side or “beginning” of the barrel it will be chambered for the desired round and bullet. The exit end of the barrel will have the proper application for the muzzle device threads, suppressor or whatever application deemed necessary.
It acts as the outer most part of the assembled barrel providing the shape, strength and rigidity. It holds the Internal Barrel Core with the use of Thermal Dynamics. This is where the two Figures
It provides the ability to interface with a Bolt Action, and/or Barrel Extension via the screw threads on the chamber end.
It sets the Gas Block position for the barrel, via the diameter and gas system length.
This design is specific to all rifled gun barrels.
Alternate Uses and applications include but are not limited to:
Barrel for the following guns: M16, AR-15, M4, Remington 700 glock, All Glocks (glock 17, 17L, 18, 19, 19x, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 30sf, 312, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43), Smith & Wesson, 300 Blackout, 338 Chassis, Bolt Guns, Semi Automatic, Rifle, Precision Rifle, Sniper Rifle, Hand gun, Pistol, Fully Automatic.
Barrel can be used for the following caliber sizes:
Variations Include:
(Synergy)™—the process of the Stainless-Steel rifle barrel (
This unique process is designed to create a more accurate, durable, rigid, and stable barrel and result in an overall lighter weight, better performing and longer lasting barrel. The process involves atomically bonding two metals (stainless steel and titanium) into one (
The barrel process invention has many benefits. Titanium is a light weight metal which makes for a lighter weight barrel. The design and materials used to make the barrel makes it stronger, more rigid and durable for better stability. Titanium cools at a much faster rate than stainless steel, making the barrel have a greater thermal conductivity. When the bullet passes through the stainless-steel portion of barrel it creates heat, the titanium then draws the heat out of the stainless steel. With these two metals working together the barrel can withstand higher levels of heat and higher temperature operation, this adds to the stability and overall performance of the barrel. The barrel is designed to produce less harmonic noise (then that of just a stainless-steel barrel), in return there is less wear on the barrel and is better for accuracy and creates a greater life span of the barrel.
This application claims the benefit of U.S. Provisional Patent Application No. 62/619,858 filed on Jan. 21, 2018, entitled “Synergy Atomic Barrel Process”, which is hereby incorporated by reference in its entirety for all that is taught and disclosed therein.
Number | Date | Country | |
---|---|---|---|
62619858 | Jan 2018 | US |