Method for producing lightweight alloy stock for gun frames

Metal treatment – Process of modifying or maintaining internal physical... – Heating or cooling of solid metal

Reexamination Certificate

Rate now

  [ 0.00 ] – not rated yet Voters 0   Comments 0

Details

C029S592000

Reexamination Certificate

active

06627012

ABSTRACT:

BACKGROUND OF INVENTION
The primary objective of this invention is to provide a method for producing a suitable lightweight starting stock that can be used by gun manufacturers for gun components. Another objective is to provide a method for producing a lightweight aluminum starting stock that can be readily forged into components such as gun frames. It is yet another objective to provide a method for producing a lightweight aluminum alloy starting stock that can be machined into a variety of gun components. Another objective is to provide a suitable method for producing a lightweight starting stock that provides enhanced mechanical properties for gun components. A final objective is to provide a method for producing a lightweight aluminum alloy starting stock that, once fabricated into a suitable gun frame, can withstand repeated firing loads.
SUMMARY OF INVENTION
This invention provides a method to produce an aluminum starting stock alloy that can readily be manufactured into gun frames and gun components with said frames and components providing substantially reduced weight relative to steel frames and components while simultaneously providing outstanding durability. Another objective of this invention is as a replacement for firearm frames and components comprised of 7075 or cast aluminum alloys. In this instance, the superior mechanical properties and superior performance under repeated shock loading indicate that the components produced using the methods taught in this invention can be substantially reduced in cross-sectional thickness and substituted for alloy 7075 and cast aluminum alloy frames and components. In this instance, the weight of the final handgun is reduced by the use of smaller frames and components.
While the scope of this invention is oriented toward handgun frames, many other components that are traditionally comprised of steel can now be fabricated using the principles of this invention, including cylinders, scopes, mounts, rings, fasteners, triggers and other gun components. Moreover, the invention anticipates use in rifle and shotgun components as well. This extension of the principle also applies to military firearms such as automatic and semi-automatic machine guns, and recreational firearms such as pellet and paintball guns.
The starting stock of this invention clearly demonstrates superior mechanical properties and can be readily forged into a gun frame. A more surprising result is that a heavy-caliber revolver frame fabricated from the starting stock alloy of this invention can withstand repeated firing loads, a result previously attained only with high strength steel and titanium alloys. Since the starting stock enables the gun frame weight to be one-third that of steel, substantial weight savings are realized to the entire gun. As reported in Combat Handguns (November 2000, pp. 28-33, 96-97), several advantages of various revolver models were detailed:
Using the processing method proposed in this invention, a .357 Magnum revolver was provided wherein the lightweight was advantageous for backpacking requirements. Previously, backpackers experienced a substantial weight addition when a heavy caliber revolver was included in their gear.
The processing method of this invention was used in the production of six different revolver models that had extremely good accuracy in target tests, with a consistent six-inch grouping from a shooting distance of 50 feet. This is a surprising result since most shooters are accustomed to relatively heavy handguns that offer more resistance to recoil after firing.
The processing method of this invention provided the combination of a high-caliber handgun with a very low carrying weight that is advantageous to law enforcement officers, hunters and backpackers.
The reported performance results for handguns that are produced under the principles of this invention are unprecedented for gun frames. It is significant to note that the durability and light weight of this alloy have precipitated the use of the principles of this invention for other gun components that were traditionally reserved for steel alloys. For example, the alloy performance also enabled its use as a cylinder in a .32 caliber revolver. As with the gun frames, the cylinder displayed the surprising combination of light weight (one-third that of steel) and the ability to survive repeated firing loads. The use of an aluminum-based alloy as a cylinder is another unprecedented achievement
DESCRIPTION OF PRIOR ART
In most instances, various types of steel are utilized in handgun construction. In recent years, gun manufacturers have utilized new materials for various components of the handgun, e.g. aluminum alloy 7075 for pistol frames and titanium alloys for cylinders, in an attempt to reduce the weight of the handgun. In the instance of the alloy 7075 gun frame, the use has been limited to relatively low caliber pistol and revolver frames. Specifically, aluminum alloy 7075 is limited for use as a frame material for .22 and 9 mm caliber rounds in pistols and for .22 and .32 caliber rounds in revolvers. Handgun users are seeking the desirable combination of a heavy caliber handgun with “stopping power” combined with light weight. Heretofore this performance feature has not been achieved.
When considering aluminum alloys for use in handguns, the gun designer considers various processing approaches and the accompanying mechanical properties to derive a manufacturing plan and a design. In the design process, the cross-sectional area of the handgun frame is sized in accordance with the mechanical properties. Cast aluminum alloys typically have yield strength values in the range of 35 to 45 ksi and elongation values of about 5%. The drawback to utilizing a cast aluminum alloy as a handgun frame in this strength regime is that 1) this strength level is not sufficient to enable the use of cast aluminum alloys in heavy caliber handguns and 2) the cross-section must be relatively thick compared to steel to withstand firing loads in small caliber handguns.
Wrought aluminum alloy 7075 has superior mechanical properties to cast aluminum alloys with a yield strength of about 65 ksi and elongation values of about 10%. The use of 7075 in low caliber pistol frames is prevalent. When alloy 7075 is utilized in heavy caliber revolvers, however, the frames typically fracture during test firing within a few rounds. Consequently, alloy 7075 cannot be used in heavy caliber revolvers. Moreover, the use of alloy 7075 in smaller caliber frames must be accompanying by thicker gages relative to titanium and steel frames.
It should be noted that while mechanical properties can be used as a guideline for designing handgun frames, the frames must withstand explosive, instantaneous loads when fired. Because these loads cannot be practically simulated, the approach to prove the concept is to manufacture an actual handgun frame that is subsequently subjected to multiple test firings.
It would be highly desirable to derive a method for producing a material that can be readily fabricated into a handgun frame with sufficient mechanical properties to withstand the high operating stresses inherent to high caliber gun frames. Moreover, the enhanced properties can be used in existing low caliber handguns; in this instance, the designers can simply reduce the cross sectional area of the frame to affect a weight savings relative to previous models.
BRIEF DESCRIPTION OF SEQUENCES
Because the starting stock of this invention is fabricated into gun frames and components that must withstand severe shock loading and substantial wear and tear, the processing parameters of the starting stock should be derived to produce desirable combinations of yield strength, elongation and hardness. The various steps to achieve these properties are as follows:
[t1]
[Forged Gun Frames and Components]
Processing Step
Purpose
1)
Casting of Billet
Provide mixture of alloying elements
2)
Homogenize Billet
Refine as-cast structure
3)
Extrude into bar
Provide reasonable size for forging and
further refine gr

LandOfFree

Say what you really think

Search LandOfFree.com for the USA inventors and patents. Rate them and share your experience with other people.

Rating

Method for producing lightweight alloy stock for gun frames does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Method for producing lightweight alloy stock for gun frames, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Method for producing lightweight alloy stock for gun frames will most certainly appreciate the feedback.

Rate now

     

Profile ID: LFUS-PAI-O-3077625

  Search
All data on this website is collected from public sources. Our data reflects the most accurate information available at the time of publication.