Cavitation-erosion wear of amino plastic in simulated environments of sugar production

Keywords

cavitation-erosive wear, aminoplasts, corrosive-active media.

Cite as

Martynyuk A. V., Stechyshyn M. S., Tsepenyuk M. I., Boris M. M., Bandura V. M., and Mikhalevskiy V. Ts. Cavitation-erosion wear of amino plastic in simulated environments of sugar production. Physicochemical Mechanics of Materials. 2023. 59(6), 028-033.

https://doi.org/10.15407/pcmm2023.06.028

Abstract

The indicators of cavitation-erosion resistance of reactive plastic polymer materials, namely aminoplasts of the grades: KFA-1, KFA-2 and KMFA-3 in neutral, acidic and alkaline environments were analyzed. The obtained results are considered from the stand­point of the physicochemical fracture mechanics of polymers, taking into account the specifics of the cavitation load, the type of environment and possible mecha­nisms of their fracture.

References

1. Yu. V. Migalina, and O. P. Kozyr, Basics of Chemistry and Physico-Chemistry of Polymers [in Ukrainian], Kondor, Kyiv (2010).
2. L. D. Maslennikova, S. V. Ivanov, F. G. Fabulyak, and Z. V. Hrushak, Physico-Chemistry of Polymers [in Ukrainian], National Aviation Univers. Publ. House “NAU-druk”, Kyiv (2009).
3. M. Ya. Kuzmenko, M. V. Burmistr, and Yu. M. Kobelchyk, Technology of Production and Processing of High-Molecular Compounds. Book 2: Synthetic resins and polymers (synthesis, properties, application) [in Ukrainian], Ukrainian State Chimiko-Technological Univer. Publ. House, Dnipro (2015).
4. S. A. Kurta, and V. S. Kurganskyi, Chemistry and Technology of High-Molecular Compounds [in Ukrainian], “Plai”, Ivano-Frankivsk (2010).
5. V. V. Anokhin, Chemistry and Physico-Chemistry of Polymers [in Ukrainian], Vyshcha Skola, Kyiv (1987).
6. M. S. Stechishin, A. V. Martinyuk, and Y. M. Bilik, “Cavitation and erosion resistance of polymeric materials,” J. of Friction and Wear, 39, Is. 6, 491-499 (2018). https://doi.org/10.3103/S1068366618060132 https://doi.org/10.3103/S1068366618060132
7. M. S. Stechishin, A. V. Martynyuk, V. P. Oleksandrenko, and Y. M. Bilyk, “Cavitation-erosion wear resistance of fluoroplasticics in model food production media,” J. of Friction and Wear, 40, Is. 5, 468-474 (2019). https://doi.org/10.3103/S1068366619050179
8. M. S. Stechishin, and A. V. Martynyuk, “Cavitation-erosion wear resistance of duroplastics,” Visnyk Ternopilskogo Natsionalnogo Tekhnichnogo Univer. [in Ukrainian], Is. 1, 66-73 (2009).
9. S. Martinović, A. Alil, S. Milićević, D. Živojinović, and T. Volkov Husović, “Morphological assessment of cavitation caused damage of cordierite and zircon based materials using principal component analysis,” Eng. Failure Analysis, 148, art. no. 107224 (2023). https://doi.org/10.1016/j.engfailanal.2023.107224
10. B. I. Kostetskyi, I. G. Nosovskyi, A. K. Karaulov, L. I. Bershadskyi, N. B. Kostetska, V. A. Lyashko, and M. F. Sagach, Surface Strength of Materials Under Friction [in Russian], Tekhnika, Kyiv (1976).
11. F. F. Boyechko, Bases of Polymer Chemistry [in Ukrainian], Radianska Shkola, Kyiv (1988).
12. G. Tkhir, and T. V. Humenetskyi, Physico-Chemistry of Polymers [in Ukrainian], Lviv Polytech. Nat. Univer. Publ. House, Lviv (2005).
13. M. I. Zakharchenko, V. V. Seredenko, and I. M. Taranenko, Chemistry of Polymers [in Ukrainian], Nat. Aerospace Univer. “Kharkiv Aviation Institute” Publ. House, Kharkiv (2008).
14. O. V. Suberlyak, V. Yo. Skorokhoda, and N. B. Semenyuk, Theoretical Bases of Polymers Chemistry and Technology [in Ukrainian], Lviv Polytechn. Nat. Univer. Publ. House, Lviv (2014).
15. Yu. P. Hetmanchuk, and M. M. Bratychak, Chemistry and Technology of Polymers [in Ukainian], Beskyd Bit, Lviv (2006).
16. K. B. Baknell, mpact-Proof Plastics [in Russian], Chimiya, Leningrad (1981).