Impact structural technology for obtaining details of ferrous and non-ferrous metals with high strength, very high accuracy and complex geometry of the surfaces.

The technology underlying the project proposal is aimed at obtaining new, much better mechanical properties and characteristics of the metals, by changing the structure and configuration of the crystal lattices of the metals, resulting in a new kind of stable crystal lattice. The process is manageable both in terms of structure type and the depth of the impact. It applies to the production of ferrous and non-ferrous metal parts where the classical technology does not have good enough and unambiguous indicators, such as volumetric and surface strength, determining the endurance and durability of the parts. It achieves significantly higher structural strength without the need for additional thermal, chemical and other types of treatments. Consequently, conditions are created for obtaining surfaces with very high dimensional accuracy within microns and the production cycle gets shortened. This is a prerequisite for the absolute repeatability of the dimensions and the technical requirements to the details, which determines the stability of the production process and the interchangeability of the elements during layout design. In this way, components with both simpler and very complex geometry of the surfaces can be produced. Cylindrical, conical, spherical, epoxy-parabolidal, hyperboloid and epicycloid surfaces as well as a combination of two or more surfaces will be produced effortlessly,. The technology is applicable both for single and small-scale production as well as for mass production. The construction similar qualities of the detail through classical technology requires the use of very expensive and specialized machines and tools, and the achievement of complex surfaces is impossible. The existing technologies, moreover, require a long and labor-intensive production process where the cost of the basic and auxiliary materials is high and the productivity is very low.

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