Modification of cast alloys nanostructured material

The third article of the series devoted to the application of nanomaterials and nanotechnologies in industry in general and, first of all, in metallurgy, materials science and foundry is presented. This article deals with the use of nanomaterials for the improvement of ferrous and non-ferrous alloys by micro-alloying and modifying methods, as well as the synthesis of new composite materials. The results of research on C-B-Fe composites obtained at the Belarusian State Technological University, a method for modifying gray cast iron with micro-additives of abrasive slurries of high-speed steels, proposed by specialists of BNTU and OJSC «MTW», and aluminum alloys modified with nanostructured carbideand nitride-containing powders developed by Belarusian, Bulgarian and Russian scientists are presented.

1. Nanotehnologii. Azbuka dlja vseh [Nanotechnology. ABC for everyone]. Moscow, FIZMATLIT Publ., 2008, 368 p.

2. Vitjaz’ P.A., Svidunovich N.A. Osnovy nanotehnologij i nanomaterialov [Fundamentals of Nanotechnology and Nanomaterials]. Minsk, Vyshjejshaja shkola Publ., 2010, 302 p.

3. Vitjaz’ P.A., Svidunovich N.A., Kuis D. V. Nanomaterialovedenie [Nanomaterials Science]. Minsk, Vyshjejshaja shkola Publ., 2015, 511 p.

4. Svidunovich N.A., Vitjaz’ P.A., Vojtov I. V., Kuis D. V., Mjurek M. N. Vybor i primenenie materialov [Selection and application of materials]. Minsk, Belaruskaja navuka Publ., 2020, 425 p.

5. Kuis D. V., Urbanovich V. S., Svidunovich N.A., Okatova G. P., Oichenko V. M. Influence of B and Fe on the structure and the properties of superhard composite on the basis of nano‑carbon at high pressure. 13th Biennial International Conference Advancad Carbon Nanostructures: abstracts of invited lectures and contributed papers, St. Peterburg, July 3–5, 2017, 169 p.

6. Okatova G. P., Svidunovich N.A., Kuis D. V., Urbanovich V. S., Ojchenko V. M., Korzhenevskij A. P. Struktura i svojstva nanokompozita na osnove zheleza i nanodispersnogo ugleroda [Structure and properties of a nanocomposite based on iron and nanodispersed carbon]. Himija i himicheskaja tehnologija = Chemistry and chemical technology, 2010, vol. 53, vyp. 10, pp. 90–99.

7. Kuis D. V., Okatova G. P., Svidunovich N.A., Rakavets A. S., Urbanovich V. S., Sedov A. I., Leztynev S. N., Panin E.A. Structure formation of composite based on nanocarbon with the addition of iron‑doped amorphous boron in conditions of high pressures and tetnperatures. Nanoscience and Technology: An International Journal, 2019, vol. 10, Issue 4, pp. 339–353.

8. Rakovets A. S., Kuis D. V., Svidunovich N.A., Lezhnev S. N. Effects of complex modifiers containing nanocarbon additives on the structure and properties of high‑strength cast iron. Journal of Chemical Technology and Metallurgy, 2020, no. 3, pp. 559–562.

9. Rakovets A. S., Kuis D. V., Svidunovich N.A., Lezhnev S. N. Obrazovanie sverhtverdoj fazy v kompozitah na osnove nanodispersnyh uglerodnyh materialov s dobavkami zheleza i bora [Formation of a superhard phase in composites based on nanodispersed carbon materials with additions of iron and boron]. Metallurgija: respublikanskij mezhvedomstvennyj sbornik nauchnyh trudov = Metallurgy: republican interdepartmental collection of scientific papers. Minsk, BNTU Publ., 2020, vyp. 41, part 2, pp. 77–87.

10. Rakovec A. S., Kuis D. V., Svidunovich N.A. Modificirovanie vysokouglerodistyh splavov na osnove zheleza s nanostrukturnymi prisadkami [Modification of high‑carbon iron‑based alloys with nanostructured additives]. Metallurgija: respublikanskij mezhvedomstvennyj sbornik nauchnyh trudov = Metallurgy: republican interdepartmental collection of scientific papers. Minsk, BNTU Publ., 2020, vyp. 41, part 2, pp. 88–96.

11. Rudnickij F. I., Kulikov S.A. Modificirovanie chugunov ul’tradispersnymi dobavkami [Modification of cast irons with ultrafine additives]. Lit’je i metallurgija = Foundry production and metallurgy, 2017, no. 1, pp. 11–15.

12. Rudnickij F. I., Kulikov S.A., Shumigaj V.A. Ispol’zovanie jenergii poverhnosti ul’tradispersnyh chastic pri razrabotke nanomodificirujushhih kompleksov [Using the surface energy of ultradispersed particles in the development of nanomodifying complexes]. Metallurgija mashinostroenija = Metallurgy of mechanical engineering, 2019, no. 6, pp.9–13.

13. Il’jushhenko A. F. Razrabotka perspektivnyh nanotehnologij v GPNO poroshkovoj metallurgii [Development of promising nanotechnologies in the GPNO powder metallurgy]. Nanostrukturnye materialy: Belarus’–Rossija–Ukraina = Nanostructured materials: Belarus – Russia – Ukraine, NANO‑2014: sbornik plenarnyh dokladov IV Mezhdunarodnoj nauchnoj konferencii, Minsk, 7–10 okt. 2014 [NANO – 2014: collection of plenary reports of the IV International Scientific Conference, Minsk, October 7–10. 2014]. Minsk, Belaruskaja navuka Publ, 2015, 256 p.

14. Dimitrova R., Stanev S., Velikov A., Cherepanov A., Lazarova R., Bojanova N. Investigation of AlSi7Mg casting refined with SiC nano‑powder. J. Mater. Sci. Technol. 20(4), 319–326 (2012).

15. Razavi M., Rahimipour M. R., Rajabi-Zamani A. H. Effect of nanocrystalline TiC powder addition on the hardness and wear resistance of cast iron. Mater. Sci. Eng., A 454–455, 144–147 (2007).