Institute of Superhard Materials

History of the Department

In 1960, a research laboratory for the production technology of diamond-abrasive tools was established at the Institute of Metallurgy and Metallurgy, which was transformed in 1978 into the Department of Physics and Chemistry of Diamond-Containing Composite Materials (today – the Department of Technology for the Formation of Structured Instrumental Composites). The research efforts of the department’s employees are focused on the development of theoretical foundations and technology for obtaining adaptive composite materials capable of rapid reversible changes in structure and properties, the study of the mechanisms of processes in excited states of matter under conditions of high energy density, and the development of composites for extreme operating conditions.

Scientific direction

Development of abrasive composites, as well as materials and coatings for a wide range of purposes from diamond and cubic boron nitride powders, various ultradisperse fillers and binders of different physicochemical nature, study and engineering of the structure and functional behavior of composite materials.

Completed projects

2015 − 2017

№DR 0114U007000 “Study and analytical generalization of the laws of physical and mechanical formation of precision surfaces of elements of optoelectronic technology from ceramics and semiconductor crystals to increase the efficiency of contact interaction of the treated surface with micro- and nanoparticles of polishing powders of various compositions”. Order of the NAS of Ukraine.

2016 − 2018

№DR 0115U006684 “Functionalization of the surface of oxide powders of different dispersion for the formation of interphase boundaries in in tool diamond-containing composites”. Order of the National Academy of Sciences of Ukraine.

2016 – 2018

№DR 0115U006573 “Study of the process of grinding tool steels with wheels made of metal-polymer composites based on CNB modified with nanodispersed fillers”. Order of the National Academy of Sciences of Ukraine.

2018 – 2020

№DR 0118U003288 “Study of the physicochemical regularities of the formation of nanorelief surfaces of optical parts and elements of optoelectronic equipment made of glass, sitals and optical and semiconductor crystals”. Order of the National Academy of Sciences of Ukraine.

2019 – 2021

№DR 0119U100580 “Tool composites with the effect of structural programming of the behavior of the polymer in the field of adsorption forces of the filler surface”. Order of the National Academy of Sciences of Ukraine.

2021–2023

№DR 0121U100506 “Study of physicochemical regularities of polishing of polymeric optical materials using micro- and nano-sized dispersed systems”. Order of the National Academy of Sciences of Ukraine.

2022–2024

№DR 0122U000402 “Development of tool composites based on polymeric metallocenes capable of non-destructive relaxation of local excited states in the contact zone”. Order of the National Academy of Sciences of Ukraine.

2018

№DR 0118U001758 “Development of a technology for manufacturing and implementing a new class of straightening tools made of CVD – diamond for abrasive grinding of gears of special gearboxes”. Order of the National Academy of Sciences of Ukraine.

2018–2019

№DR 0118U002346 “Creation of high-strength fibrous composites on hybrid bonds for aviation equipment parts”. Order of the NAS of Ukraine.

2020–2021

№DR 0120U102117 “Synthesis of nanodispersed bulk and film structures by controlled polymerization of metal complexes with oligophenylenes”. Order of the NAS of Ukraine.

2020– 2021

№DR 0120U101901 “Creation of coatings based on high-modulus polymers with structurally non-rigid substituents capable of self-lubrication under triboloading”. Order of the NAS of Ukraine.

2020

№DR 0120U100023 “Improvement of the production of abrasive tools based on new technological principles of fixing diamond grains by electrochemical metal deposition”. Order of the National Academy of Sciences of Ukraine.

2020–2021

№DR 0120U101293 “Analysis of the state of the problem, development of theoretical foundations for the intensification of local mechanical and physicochemical effects in the contact zone of the tool and the product in the processes of mechanical processing; obtaining a range of composites for instrumental purposes, creating the latest blade and abrasive tools based on them”. Order of the National Academy of Sciences of Ukraine.

2022

№DR 0122U000882 “Development of methods for obtaining diamond grinding powders and structurally perfect diamond single crystals with the study of their electrophysical properties for use in instrument and mechanical engineering”. Order of the National Academy of Sciences of Ukraine.

2022–2023

№DR 0122U002231 “Development of composite tools based on superhard materials and technologies for processing aircraft engine parts strengthened and restored with heat-resistant alloys”. Order of the National Academy of Sciences of Ukraine.

2022

№DR 0122U002232 “Development and research of new composites based on cubic boron nitride for equipping cutting tools used under shock loads”. Order of the National Academy of Sciences of Ukraine.

Latest publications

1. Andrii M. Kovalchenko, Saurav Goel, Islam M. Zakiev, Evgeniy A. Pashchenko, Rajab Al-Sayegh. Suppressing scratch-induced brittle fracture in silicon by geometric design modification of the abrasive grits, Journal of Materials Research and Technology, Volume 8, Issue 1, 2019, Pages 703-712, https://doi.org/10.1016/j.jmrt.2018.05.016

2. E. Pashchenko, D. Savchenko, O. Kaidash, S. Kukharenko, Y. Rumiantseva and O. Buriachek, “Synthesis of Hybrid Partially Oxidized Nanodispersed Metal Particles with Simultaneous Surface Functionalization,” 2020 IEEE 10th International Conference Nanomaterials: Applications & Properties (NAP), Sumy, Ukraine, 2020, pp. 01NSSA04-1-01NSSA04-4, doi: 10.1109/NAP51477.2020.9309599

3. Myronyuk, O.; Baklan, D.; Vasilyev, G.S.; Rodin, A.M.; Vanagas, E. Wetting Patterns of Liquid-Repellent Femtosecond Laser Textured Aluminum Surfaces. Coatings 2022, 12, 1852. https://doi.org/10.3390/coatings12121852

4. Filatov, Y.D. Polishing of Precision Surfaces of Optoelectronic Device Elements Made of Glass, Sitall, and Optical and Semiconductor Crystals: A Review. J. Superhard Mater. 42, 30–48 (2020). https://doi.org/10.3103/S1063457620010037

5. Filatov, Y.D., Sidorko, V.I., Kovalev, S.V. et al. Effect of the Rheological Properties of a Dispersed System on the Polishing Indicators of Optical Glass and Glass Ceramics. J. Superhard Mater. 43, 65–73 (2021). https://doi.org/10.3103/S1063457621010032

6. Chasnyk, V., Chasnyk, D., Fesenko, I. et al. Dielectric characteristics of pressureless sintered AlN-based composites in the 3–37 GHz frequency range. J Mater Sci: Mater Electron 32, 2524–2534 (2021). https://doi.org/10.1007/s10854-020-05019-6

7. Pashchenko E. О. ., Riabchenko , S. V. ., Bychyhin , V. M. ., Kukharenko, S. A. ., Savchenko , D. O. ., Kaidash, O. M. ., & Smokvyna, V. . V. . (2022). Innovative Method of Fixing Diamond Grains for Improving the Production of Diamond-Abrasive Tools. Science and Innovation, 18(1), 56–65. https://doi.org/10.15407/scine18.01.056

8. Chasnyk, V., Kaidash, O., Vovk, L. et al. Influence of the Silicon Carbide Particle Size on Dielectric Characteristics, Thermal Conductivity, and Microwave Absorption of Pressureless-Sintered AlN–(20–50)% SiC Composites. Powder Metall Met Ceram 61, 50–59 (2022). https://doi.org/10.1007/s11106-022-00294-w

9. Filatov Y.D., Sidorko V.I., Kovalev S.V., Boyarintsev A.Yu., Kovalev V.A., Yurchyshyn O.Ya.. Formation and localization of a deposit of polishing powder wear nanoparticles on the processed surface during polishing of polymeric optical materials. Superhard Materials. 2024. No. 1. P. 69–80.

English version: Filatov Y.D., Sidorko V.I., Kovalev S.V., Boyarintsev A.Yu. Kovalev V.A., Yurchyshyn O.Ya. Deposition and Localization of Polishing Powder Wear Nanoparticles on the Processed Surface of Polymeric Optical Materials. J. Superhard Mater. 2024. Vol. 46, no. 1. P. 55–64. https://doi.org/ 10.3103/S1063457624010040

10. Filatov Y.D. Material Removal Rate in Polishing Polymethylmethacrylate Parts. Superhard Materials. 2024. No. 3. P. 63–72.

English version: Filatov Y.D. Material Removal Rate in Polishing Polymethylmethacrylate Parts. J. Superhard Mater. 2024. Vol. 46, no. 3, P. 212–220. https://doi.org/10.3103/S1063457624030031

11. Chasnik V.I., Chasnik D.V., Kaidash O.M. Activation Energy of Electrical Conductivity and Features of Microwave Radiation Absorption in AlN–SiC Composite. Superhard Materials. 2024. No. 4.
    P. 48–55.

English version: Chasnyk V.I., Chasnyk D.V. Kaidash O.M. Activation Energy of Electrical Conductivity and Characteristics of Microwave Radiation Absorption in AlN–SiC Composite. J. Superhard Mater. 2024. Vol. 46, Is. 4. P. 285–292.https://doi.org/10.3103/S1063457624040026

12. Filatov Yu.D. Quantum Mechanism of Optical Glass Polishing. Superhard Materials. 2024. No. 4. P. 67–79.

English version: Filatov Yu.D. Quantum Mechanism of Optical Glass Polishing. J. Superhard Mater. 2024. Vol. 46, no. 4. P. 303–313. https://doi.org/10.3103/S106345762404004X

13. Research on the wear resistance of impregnated crowns based on composites of the Salmaz‒(WC‒Co)‒ZrO2 system in the case of granite drilling / B.T. Ratov, V.A. Mechnyk, E.S. Gevorkyan, M.O. Bondarenko, V.M. Kolodnitsky, N.S. Akhmetova, D.L. Korostyshevsky, R.U. Bayamirova // Superhard materials. 2024. No. 4. P. 80–90.

English version: Ratov B.T., Mechnik V.A., Gevorkyan E.S., Bondarenko N.A., Kolodnitskyi V.M., Akhmetova N.S., Korostyshevskyi D.L., Bayamirova R.U. Investigating the Wear Resistance of Cdiamond–(WC–Co)–ZrO2 Composite Impregnated Crowns in Granite Drilling. J. Superhard Mater. 2024. Vol. 46, no. 4. P. 314–321. https://doi.org/10.3103/S1063457624040099

14. Filatov Yu.D., Boyarintsev A.Yu., Sidorko V.I., Kovalev S.V., Kolesnikov O.V., Novgorodtsev V.O., Polupan Ya.I.. Mechanism of Polishing for Polystyrene Based Scintillators. Superhard Materials. 2024. No. 5. P. 69–83.

English version: Filatov Yu.D., Boyarintsev A.Yu., Sidorko V.I., Kovalev V.A., Kolesnikov O.V., Novgorodtsev V.O., Polupan Ya.I. Mechanism of Polishing for Polystyrene Based Scintillators. J. Superhard Mater. 2024. Vol. 46, no. 5. P. 390–401. https://doi.org/10.3103/S1063457624050034

15. Chasnyk V.I., Chasnyk D.V., Kaidash O.M., Fesenko I.P., Kukharenko S.A. The effect of surface condition of AlN–Mo composite bulk absorbers on the reduction of microwave radiation reflection. Superhard Materials. 2024. No. 6. P. 45–54.

English version: Chasnyk V.I., Chasnyk D.V., Kaidash O.M., Fesenko I.P., Kukharenko S.A. The effect of surface condition of AlN–Mo composite bulk absorbers on the reduction of microwave radiation reflection. J. Superhard Mater. 2024. Vol. 46, Is. 6. P. 450–457. https://doi.org/10.3103/S1063457624060029

16. Mechnyk V.A., Bondarenko M.O., Kolodnitsky V.M., Staryk S.P.,. Korostyshevsky D.L., Poshvanyuk N.F.. Research on the wear resistance of Salmaz‒(WC‒Co)‒CrB2 composite materials formed by the spark-plasma sintering method. Instrumental materials science: collection of scientific works. Issue 27. Kyiv: V.M. Bakul Institute of Metallurgy, NAS of Ukraine, 2024. P. 27–39. DOI: 10.33839/2708-731Х-27-1-27-39
17. Poltoratsky V.G., Bochechka O.O., Lavrinenko V.I., Leshchenko O.V., Bilochenko V.P., Silchenko Y.L., Smirnova A.V. Features of the technological process of forming a protective coating from micro-, submicro- and nanopowders of cubic boron nitride on the surface of grains of high-strength synthetic diamond grinding powders. Instrumental materials science: collection of scientific works. Issue 27. Kyiv: V.M. Bakul Institute of Metallurgy, NAS of Ukraine, 2024. P. 178–183. DOI: 10.33839/2708-731Х-25-1-178-183
18. Ryabchenko S.V. Ensuring the quality and durability of gear wheels by grinding with cubic boron nitride wheels. Instrumental materials science: collection of scientific works. Issue 27. Kyiv: V.M. Bakuly Institute of Metallurgy, NAS of Ukraine, 2024. P. 297–303. DOI: 10.33839/2708-731Х-24-1-297-303
19. Ryabchenko S.V., Dergousov V.M., Nezhebovsky V.V., Berezhny R.A., Permyakov O.A., Klochko O.O., Ustinenko O.V. Grinding of parts of reducers of cleaning combines. Instrumental materials science: collection of scientific works. Issue 27. Kyiv: V.M. Bakulya Institute of Metallurgical Materials, NAS of Ukraine, 2024. P. 337–342. DOI: 10.33839/2708-731Х-24-1-337-342
20. Filatov Yu.D., Boyaryntsev A.Yu., Sidorko V.I., Rybalka I.A., Kovalev S.V., Kovalev V.A., Yurchyshyn O.Ya., Sosnytska O.O., Pylypenko O.I. Polishing of parts and optotechnics of semiconductor materials. Instrumental materials science: collection of scientific works. Issue 27. Kyiv: V.M. Bakulya Institute of Metallurgical Materials, NAS of Ukraine, 2024. P. 346–354. DOI: 10.33839/2708-731Х-24-1-346-354
21. Omelyanenko V.I., Sergienko N.V., Kaidash O.M., Fesenko I.P., Kukharenko S.A. Thermal and electrical conductivity of hot-pressed materials of the dielectric matrix/conductive inclusions system (AlN–hВN)/(TiB2–TiAl3). Instrumental materials science: collection of scientific works. Issue 27. Kyiv: V.M. Bakulya Institute of Metallurgical Materials, NAS of Ukraine, 2024. P. 346–354. DOI: 10.33839/2708-731Х-24-1-346-354
22. Omelyanenko V.I., Sergienko N.V., Kaidash O.M., Fesenko I.P., Kukharenko S.A. Thermal and electrical conductivity of hot-pressed materials of the dielectric matrix/conductive inclusions system (AlN–hВN)/(TiB2–TiAl3). Bakulya, NAS of Ukraine, 2024. P. 363–373. DOI: 10.33839/2708-731Х-24-1-363-372.
23. Sheiko M.M., Lavrinenko V.I., Ryabchenko S.V., Solod V.Yu. Modern developments of the ruling instrument. Equipment and tools for professionals: International information and technical journal. Kharkiv: IVD “Centrinform”, 2024. No. 1 (247). P. 62–65.
24. Conference abstracts
25. Hasanov M.I., Klochko O.O., Permyakov O.A., Ryabchenko S.V. Restoration of functional properties of large-modulus gears. Modern issues of production and repair in industry and transport: materials. 24th International Scientific and Technical Seminar, March 26–27, 2024, Kyiv. K.: ATM of Ukraine, 2024. P. 26–29.
26. Okhrimenko O.A., Shupletsov D.K., Ryabchenko S.V., Shelkovy O.M., Lukʼyanytsya Ya.Yu., Klochko L.V., Gudymenko O.M. Repairability of gearboxes in the bakery industry. Modern issues of production and repair in industry and transport: materials of the 24th International Scientific and Technical Seminar, March 26–27, 2024, Kyiv. K.: ATM of Ukraine, 2024. P. 117–120.
27. Ryabchenko S.V., Bandurenko M.V., Silchenko Y.L., Fedorenko V.T. Grinding of bevel gears with wheels made of superhard materials. Modern issues of production and repair in industry and transport: materials of the 24th International Scientific and Technical Seminar, March 26–27, 2024, Kyiv. Kyiv: ATM of Ukraine, 2024. P. 131–132.
28. Ryabchenko S.V., Manokhin A.S., Kamchatna-Stepanova K.V., Permyakov E.O., Fedorenko V.S. Improvement of the cutting of large-modulus chevron cylindrical gears after restoration with an allowance for gear grinding. Modern issues of production and repair in industry and transport: materials of the 24th International scientific-technical seminar, March 26–27, 2024, Kyiv. K.: ATM of Ukraine, 2024. P. 132–135.
29. Hasanov M.I., Zakovorotnyi O.Yu., Klochko O.O., Ryabchenko S.V. Prospects for studying the process of high-speed abrasive gear milling of cylindrical gears. Current issues of production and repair in industry and transport: materials of the 24th International Scientific-Technical Seminar, March 26–27, 2024, Kyiv. K.: ATM of Ukraine, 2024. P. 24–26.
30. Filatov Yu.D., Boyaryntsev A.Yu., Sidorko V.I., Kovalev S.V., Kovalev V.A., Yurchyshyn O.Ya. Polishing of optical engineering parts. Proceedings of the International Conference “Materials and Technologies in Engineering (MTI-24)”, May 14–16, 2024, Lutsk. Vezha-Druk, 2024. P. 280–282.
31. Ryabchenko S.V., Bandurenko M.V., Yarovitsyn O. Fomakin O. Grinding of welded surfaces of aircraft parts with an abrasive tool made of chromium corundum. II International Scientific and Technical Conference. “Materials and Technologies in Engineering” MTI-2024, Lutsk National Technical University, May 14–16, 2024. Lutsk: Vezha. 2024. P. 252–254.
32. Filatov Yu.D., Boyaryntsev A.Yu., Sidorko V.I., Kovalev S.V., Kovalev V.A., Yurchyshyn O.Ya. Polishing of semiconductor materials for optoelectronics. Mater. XIII int. scientific-practical conf. “Integrated quality assurance of technological processes and systems”, T. 1, May 23–24, 2024, Chernihiv. NU “Chernihiv Polytechnic”, 2024. P. 84–85.
33. Ryabchenko S.V. Grinding of gears with ruby-corundum wheels. XII International Scientific and Practical Conference “Integrated Quality Assurance of Technological Processes and Systems”, May 26–27, 2024, Chernihiv. 2024. P. 87.
34. Omelianenko V., Fesenko I., Kaidash O., Sergienko N. Electrical resistivity of AlN–hBN–TiB2 ceramic composite. Abstr. IXth Int. Samsonov confer. Materials Science of Refractory Compounds (MSRC-2024). May 27–30, 2024, Kyiv, Ukraine, P. 19. DOI: 10.62564/M4-IF2339
35. Pashchenko E., Savchenko D., Kaidash O., Kukharenko S., Skorokhod S., Kurganov R. The effect of refractory fillers on improving the tribotechnical characteristics of antifriction self-lubricating polymer composite coatings. Abstract IXth Int. Samsonov confer. Materials Science of Refractory Compounds, (MSRC-2024). May 27–30, 2024, Kyiv, Ukraine, P. 72. DOI: 10.62564/M4-OK1748
36. Yurchyshyn O.Ya., Kovalev V.A., Filatov Yu.D., Boyaryntsev A.Yu., Sidorko V.I., Kovalev S.V., Kolesnikov O.V., Novgorodtsev V.O. Polishing of optoelectronic elements made of dielectrics, conductors and semiconductors. Forum of Mechanical Engineers KPI-2024, November 28–29, 2024. P.