The present invention relates to an improved method for Fabricating lightweight metal feedstock for use in gun frames and other gun Parts comprising the above-detailed steps in order: a) Mixing zinc and alloying Components in an Proper ratio b) electroplating Proper Quantity of alloy on Appropriate surfaces c) welding the Framework or Part d) electroplating the Framework or component on Proper substrate Electronic ) machining appropriate Amount of metal on Appropriate sheeting f) finally electroplating the Framework or Part as Desirable
This invention improves upon the original look of handgun manufacturers whereby starting stocks were manufactured from plastic or synthetic cloth materials according to desired handgun weight and length. On the other hand, the initial method did not ensure quality especially with respect to wear immunity and general life expectancy. In addition, it had just one major restriction, specifically that the firearm could only be used in a certain environment. In addition, it might only be used with specific ammunition types which could have significant restrictions as regards its usage. Additionally, it required extensive expenses in terms of buying rubber or synthetic substance and keeping them when not being used.
Other factors included in the initial design included constraints as regards manufacturing procedures like breaking tolerance, stress relieving, toughness, etc., as well as limitations concerning the use of various ammunition types with the same design. It’s thought that these constraints were due to difficulties associated with manually loading a handgun framework before use or loading the same after use. Thus, this later procedure emerged and solved all of these issues connected to traditional starting stocks. Moreover, by improving the mechanical components of these gun frames, these advancements enabled manufacturers to produce a lot lighter pistol frame with greater accuracy and effectiveness compared to conventional calibers.
The improvement process comprised a number of innovative techniques so as to boost precision, force reliability and the speed of fire of the handguns. One of these improvements includes the following: * Manufacturing by means of a cutting-edge machining procedure. * Utilizing the most recent computer technology for process operation. * Developing an entirely new and one of a kind pressure sensitive material for handgun casing. * Developing a unique and effective finishing procedure for exactly the same.
The most critical aspect of this invention is the development of a totally new type of handgun component. This new element was created in a unique way by employing high technology equipment. In reality, the process has turned out to be less expensive than traditional designs and methods. To benefit from this revolutionary procedure, manufacturers had to overcome a number of challenges. To begin with they had to find an innovative manufacturing method to manufacture high-quality gun frames in a shorter period. Second, they had to successfully blend the functionality of conventional and high-technology parts so as to produce a reliable, high-precision component.
The present invention solves the problems mentioned previously. In the first place, gun manufacturers could use high-speed CNC machines to manufacture lightweight metal gun frames with increased accuracy and greater tolerances. The consequence of this innovative process is a totally new design of handgun casing that is extremely durable and accurate. Moreover, it also offers users greater tolerance to tear and wear. Because of its sturdy structure, it’s effective at resisting impacts which occur during usage. Furthermore, it has the ability to meet the requirements of different state and national laws. Read more about Polymer 80 FDE here.