banner

Author: Peskova A.S., Vinogradova T.S., Farmakovsky B.V., Ulin I.V., Yurkov M.A., Sholkin S.E., Mikheeva M.N.

Institute: “Central Research Institute of Structural Materials “Prometheus”

An alloy based on a quasicrystal of the Al-Cu-Fe system is developed to create a wear-resistant, nanostructured coating. This alloy has unique properties such as high hardness, excellent resistance to wear and corrosion, and high resistance to high temperatures. The application of this coating can significantly increase the service life of products and equipment, making it an ideal choice for use in high-wear environments.

This alloy based on a quasicrystal of the Al-Cu-Fe system was developed using modern technologies and innovative material processing methods. Thanks to its nanostructured structure, it provides exceptional strength and wear resistance, making it an ideal material for creating durable coatings.                                            

An important advantage of this alloy is its resistance to aggressive environments and high temperatures, which allows it to be used in conditions where high reliability and durability are required. Thanks to its chemical composition and structure, this coating not only protects the surface of products from wear and corrosion, but also provides excellent anti-friction properties, which significantly improves their performance and efficiency.

In addition, an alloy based on a quasicrystal of the Al-Cu-Fe system can be successfully used to coat a wide variety of materials and surfaces, which makes it universal and in demand in various industries. Its use allows you to save money on replacing worn out parts and equipment, and also increases the overall efficiency of production processes. As a result, an alloy based on a quasicrystal of the Al-Cu-Fe system is an innovative and promising material that significantly improves the quality and reliability of products.

We use cookies in order to give you the best possible experience on our website. By continuing to use this site, you agree to our use of cookies.
Accept