of composite powder producing on wear rate of the NiAl-CrB2 plasma coatings.
Abstract
The effect of the method of composite powders producing on the structure and performance of the NiAl-CrB2 plasma coating was investigated. On the basis of complex structural studies of developed materials and coatings are carried out by selection of the optimal technology of composite powder coating materials producing. The results of tribological tests have shown that the coating of powders, obtained by sintering and hot pressing, characterized by lower wear values compared with coatings from conglomerated powders. Keywords: NiAl intermetallic compound, chromium diboride, conglomeration, composite materials and coatings, tribological tests, wear resistance.References
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17. O.P. Umans'kij, O.M. Poljarus, M.S. Ukraїnec'. Osoblivostі kontaktnoї vzaєmodії ta struk-turoutvorennja v sistemі NiAl-CrB2. Adgezija rasplavov i pajka materialov. Vyp. 48. – 2015 (iz pechati vyshla v okt.2016). S. 55–61.
18. Umanskij A. P., Terent'ev A.E., Storozhenko M.S., Bondarenko A.A. Vlijanie dobavok TiB2 na strukturu i svojstva plazmennyh pokrytij na osnove NiCrSiB. Aviacionno-kosmicheskaja tehnika i tehnologija. 2012. №10 (97). S. 50–55.
19. A.P. Umanskij, A.E. Terent'ev, M.S. Storozhenko, I.S. Marcenjuk. Issledovanie zakono-mernostej vlijanija melkodispersnyh dobavok TiB2 na formirovanie strukturno-fazovogo sostava kom-pozicionnyh poroshkov i pokrytij sistemy (Ni-Cr-Si-B)-TiB2. Naukovі notatki. Luc'k, 2013. Vi-pusk 41, chastina 2. C. 213–221.
20. M.S. Storozhenko. Mehanіzmi znoshuvannja plazmovih pokrittіv sistemi v umovah tertja kov-zannja bez mastila. Problemi tribologії . 2013. №4. S. 121–128.
21. O. Umanskyi, I. Hussainova, M. Storozhenko, O. Terentyev, M. Antonov. Effect of oxidation on sliding wear behavior of NiCrSiB-TiB2 plasma sprayed coatings. Key Engineering Materials. 2014. Vol. 604. P. 16–19.
22. Umanskij A.P., Storozhenko M.S., Terent'ev A.E., Akopjan V.V. Plazmennye pokrytija sis-temy TiB2-(Fe-Mo). Aviacionno-kosmicheskaja tehnika i tehnologija. 2014. №7 (114). S.6–11.
23. Umanskij A.P., Hussainova I., Storozhenko M.S., Terent'ev A.E., Maksimov A., Koval'chen-ko A.M. Strukturno-fazovyj sostav i mehanizmy iznashivanija plazmennogo pokrytija sistemy NiCrSiB-20% (mas.) TіV2. Poroshkovaja metallurgija 2014 № 11/12 S. 57–68.
2. Darolia R. NiAI Alloys for High. Temperature Structural Applications. JOM. 1991. P. 44–48.
3. Zhu S. et al. Tribological behavior of NiAl matrix composites with addition of oxides at high tem-peratures. Wear. Elsevier, 2012. Vol. 274-275. P. 423–434.
4. Whittenberger J.D. et al. Elevated temperature slow plastic deformation of NiAl-TiB2 particulate composites at 1200 and 1300K. J. Mater. Sci. 1990. Vol. 25, № 1. P. 35–44.
5. Whittenberger J.D. et al. Slow plastic deformation of extruded NiAl-10TiB2 particulate composites at 1200 and 1300 K. J. Mater. Sci. Lett. 1990. Vol. 9, № 3. P. 326–328.
6. Movahedi B. Fracture toughness and wear behavior of NiAl-based nanocomposite HVOF coatings. Surf. Coatings Technol. Elsevier B.V., 2013. Vol. 235. P. 212–219.
7. Shokati A.A. et al. In situ synthesis of NiAl-NbB2 composite powder through combustion synthesis. J. Alloys Compd. 2013. Vol. 549. P. 141–146.
8. Sheng L.Y. et al. Investigation on microstructure and wear behavior of the NiAl-TiC-Al2O3 compos-ite fabricated by self-propagation high-temperature synthesis with extrusion. J. Alloys Compd. 2013. Vol. 554. P. 182–188.
9. Umanskyi O. Poliarus O. et al. Effect of ZrB2, CrB2 and TiB2 Additives on the Tribological Charac-teristics of NiAl-Based Gas-Thermal Coatings. Key Eng. Mater. 2014. Vol. 604. P. 20–23.
10. Umanskij A.P., Poljarus E.N., Ukrainec M.S., Kapitanchuk L.M. Struktura i tribotehniche-skie harakteristiki kompozicionnyh materialov i pokrytij iz nih na osnove sistemy NiAl-CrB2. Poroshkovaja metallurgija. 2015. № 1/2(501). S.65–73.
11. Umanskyi O. Poliarus O. et al. Physical-Chemical Interaction in NiAl-MeB2 Systems Intended for Tribological Applications. Welding Journal, 2015. Vol. 94. P. 225–230.
12. Umanskij A.P., Poljarus E.N., Kostenko A.D., Ukrainec M.S. Vlijanie dobavok tugoplavkih boridov na mehanizmy iznashivanija plazmennyh pokrytij na osnove intermetallida NiAl. Problemy tribologii. 2014. № 1. S. 46–52.
13. O.P. Umans'kij, O.M. Poljarus, M.S. Ukraїnec', O.V. Kushhev, O.U. Stel'mah. Vpliv tempera-turi viprobuvan' na tribotehnіchnі harakteristiki kompozicіjnih pokrittіv sistemi NiAl-CrB2. m. Luc'k. Zbіrnik naukovih prac' «Naukovі notatki». 2013. № 41. Ch. 2. S. 206–212.
14. O. Umanskyi, O. Poliarus, M. Ukrainets, O. Kostenko, O. Terentyev. Influence of CrB2 additives into NiAl intermetallics on tribological properties of thermal spray coatings at high temperature friction. Con-ference MET-2013: Materials, Environment, Technology. Latvia, Riga, June 19-20, 2013. R. 37–43.
15. Poljarus O.M. Vpliv domіshok diboridu hromu v іntermetalіd NiAl na tribotehnіchnі vlastivostі gazotermіchnih pokrittіv pri visokotemperaturnih viprobuvannjah. Naukovі notatki. m. Luc'k. 2015. № 51. S. 143–148.
16. O. Umanskyi, O. Poliarus, M. Ukrainets, M Antonov, I. Hussainova. High Temperature Sliding Wear of NiAl-based Coatings Reinforced by Borides. Materials Science (MEDŽIAGOTYRA). Vol. 22, No. 1. 2016, pp 49–53.
17. O.P. Umans'kij, O.M. Poljarus, M.S. Ukraїnec'. Osoblivostі kontaktnoї vzaєmodії ta struk-turoutvorennja v sistemі NiAl-CrB2. Adgezija rasplavov i pajka materialov. Vyp. 48. – 2015 (iz pechati vyshla v okt.2016). S. 55–61.
18. Umanskij A. P., Terent'ev A.E., Storozhenko M.S., Bondarenko A.A. Vlijanie dobavok TiB2 na strukturu i svojstva plazmennyh pokrytij na osnove NiCrSiB. Aviacionno-kosmicheskaja tehnika i tehnologija. 2012. №10 (97). S. 50–55.
19. A.P. Umanskij, A.E. Terent'ev, M.S. Storozhenko, I.S. Marcenjuk. Issledovanie zakono-mernostej vlijanija melkodispersnyh dobavok TiB2 na formirovanie strukturno-fazovogo sostava kom-pozicionnyh poroshkov i pokrytij sistemy (Ni-Cr-Si-B)-TiB2. Naukovі notatki. Luc'k, 2013. Vi-pusk 41, chastina 2. C. 213–221.
20. M.S. Storozhenko. Mehanіzmi znoshuvannja plazmovih pokrittіv sistemi v umovah tertja kov-zannja bez mastila. Problemi tribologії . 2013. №4. S. 121–128.
21. O. Umanskyi, I. Hussainova, M. Storozhenko, O. Terentyev, M. Antonov. Effect of oxidation on sliding wear behavior of NiCrSiB-TiB2 plasma sprayed coatings. Key Engineering Materials. 2014. Vol. 604. P. 16–19.
22. Umanskij A.P., Storozhenko M.S., Terent'ev A.E., Akopjan V.V. Plazmennye pokrytija sis-temy TiB2-(Fe-Mo). Aviacionno-kosmicheskaja tehnika i tehnologija. 2014. №7 (114). S.6–11.
23. Umanskij A.P., Hussainova I., Storozhenko M.S., Terent'ev A.E., Maksimov A., Koval'chen-ko A.M. Strukturno-fazovyj sostav i mehanizmy iznashivanija plazmennogo pokrytija sistemy NiCrSiB-20% (mas.) TіV2. Poroshkovaja metallurgija 2014 № 11/12 S. 57–68.
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Published
2016-12-27
How to Cite
Полярус, Е. (2016). of composite powder producing on wear rate of the NiAl-CrB2 plasma coatings. Problems of Tribology, 82(4), 73. Retrieved from https://tribology.khnu.km.ua/index.php/ProbTrib/article/view/67
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