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Precise machining using chemical etching process.

Precise machining involves the production of extremely complicated metal parts made mainly of thin sheets. In addition to accurate metal parts, they are often used for specific purposes. However, there are different techniques, such as chemical engraving, metal stamping and RF shielding to produce accurate metal parts.

The chemical etching process is mainly used to produce precise metal parts. The machine system offers great flexibility for the production of precise metal parts, with an unusual configuration, as well as metals with a tight tolerance of 0.0005 “. In addition to chemical engraving machines, they are capable of producing small holes and screws that are not possible in most stamping processes. The chemical engraving machine uses state-of-the-art CAD software, with a resolution of ¼ million in the production process, which facilitates fast and low-cost operations. the prototype and to produce large quantities of precision metal parts… an important role in supporting NASA’s research system.

Likewise, the metal stamping machining process, also known as progressive stamping, or long-term metal stamping, is widely used in the production of precision metal parts with a thickness of 0.002 “to 0.135”. The technique is mainly used to process low-cost parts that have three dimensions.

RF protection machining allows the processing of precise metal parts, such as RF shields. The machine assists in the production of custom and standard RF shields. The machine is capable of manufacturing product parts from a simple five-sided box, to a complex shield of several cavities with removable covers. In addition to the machining process, it facilitates the production of removable flat, molded and upholstered covers, with or without logos and part numbers. In addition, standard RF shields are available in 54 dimensions and are provided with a prototype, which allows the operator to flexibly design custom RF shields.

Precise machining is used in various materials, such as steel, bronze, graphite, plastic, glass and so on. The tools are used depending on the size of the project and the materials that can be used. As in the aerospace industry, high-speed machining can be used, while in the wood industry it may be possible to use photochemical engraving and grinding processes. The precision and quality that manufacturing needs bring to manufacturing requires that those involved in design and manufacturing understand the industry and the processes accepted by the industry.

Advances in precision machinery have given the aeronautical industry a great boost, as aircraft need parts designed with maximum perfection. Precise machining has made it possible to manufacture improved hospital tools, also serving a social cause.