Influence of high-modulus filler content on critical load on tribocouples made of microheterophase polymer composite materials
DOI:
https://doi.org/10.31891/2079-1372-2022-104-2-71-79Keywords:
polymer composite material, microheterophase composite, high modulus filler, triad coupling of parts, critical load, setting, failureAbstract
The influence of the content of high-modulus filler on the assessment of the critical load on the conjugation of polymeric composite materials is theoretically substantiated from the tribological point of view. Various cases of destruction of polymeric composite materials are considered. The conditions under which the setting of polymeric composite materials is observed, as well as the conditions of their destruction are formulated. Both viscous and brittle fracture of polymeric composite materials are considered. The main focus is on critical loads and stresses depending on the content of high-modulus filler, taking into account the modulus of elasticity of the polymer matrix and filler and the nature of their destruction
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19. Aulin VV (2016). Trybofizychni osnovy pidvyshchennia nadiinosti mobilnoi silskohospodarskoi ta avtotransportnoi tekhniky tekhnolohiiamy trybotekhnichnoho vidnovlennia: monohrafiia [Kropyvnytskyi: Lysenko VF] 303 s.
2. Aulin VV (2015). Trybofizychni osnovy pidvyshchennia zosostiikosti detalei ta robochykh orhaniv silskohospodarskoi tekhniky [ dys. ... Dr. Tech. Science: 05.02.04 ] 360 p.
3. Aulin VV, Derkach OD, Makarenko DO, Hrynkiv AV (2018). Vplyv rezhymiv ekspluatatsii na znoshuvannia detalei, vyhotovlenykh z polimerno-kompozytnoho materialu [ Problems of tribology. №4 ] - P.65-69.
4 . Kabat, O., Sytar, V., Derkach, O., Sukhyy, K. (2021). Polymeric composite materials of tribotechnical purpose with a high level of physical, mechanical and thermal properties [ Chemistry and Chemical Technology, 15 (4) ] pp. 543-550.
5. Kabat, O., Makarenko, D., Derkach, O., Muranov, Y. (2021). Determining the influence of the filler on the properties of structural thermalresistant polymeric materials based on phenylone C1 [ Eastern-European Journal of Enterprise Technologies, 5 (6-113) ] pp. 24-29.
6. Dudin, V., Makarenko, D., Derkach, O., Muranov, Y. (2021). Determining the effect of a filler on the properties of composite materials based on polytetrafluoroethylene for tribological conjugations in machines and mechanisms [ Eastern-European Journal of Enterprise Technologies, 4 (12-112) ] pp. 61-70.
7. Kobets, AS, Derkach, OD, Kabat, OS, Volovyk, IA, Kovalenko, VL, Kotok, VA, Verbitskiy, VV (2020). Investigation friction and wear of constructional plastics based on aromatic polyamide [ ARPN Journal of Engineering and Applied Sciences, 15 (10) ] pp. 1189-1195.
8. Kobets, AS, Derkach, OD, Kabat, OS, Kovalenko, VL, Kotok, VA (2019) . Recycling of constructional plastics with additives of exhausted polyethylene [ ARPN Journal of Engineering and Applied Sciences, 14 (13) ] pp. 2397-2406.
9. Kabat, OS, Kharchenko, BG, Derkach, OD, Artemchuk, VV, Babenko, VG (2019). Polymer composites based on fluoroplastic and method for the production thereof (2019) . [ Voprosy Khimii i Khimicheskoi Tekhnologii (3) ] pp. 116-122.
10. Aulin VV (2006). Pole napruzhen v kompozytsiinomu materiali ta kompozytsiinomu pokrytti v umovakh tertia kovzannia. [Coll. science. prats LNAU. Series: Technical Sciences. №.65 (88)] P.13-20.
11. Aulin VV (2004). Vyznachennia obiemnoho vmistu napovniuvacha v antyfryktsiinomu kompozytsiinomu pokrytti. [Mashynoznavstvo №7 (85)] pp. 49-53.
12. Aulin VV (2006). Vplyv kharakterystyk komponentiv kontaktuiuchykh kompozytsiinykh materialiv i pokryttiv na parametry ta vlastyvosti zony tertia [Problems of tribology. Khmelnytskyi. KhNU, №4 (42)] pp. 110-112.
13. Aulin VV, Hrynkiv AV, Smal VV, Lysenko SV ta in. (2021). Basic approaches and requirements for the design of tribological polymer composite materials with high-modulus fillers [ Problems of Tribology, V. 26, No 4 / 102-2021 ] P. 51-60.
14. Aulin VV, Derkach OD, Hrynkiv AV, Makarenko DO (2021) Vyznachennia robochoi temperatury kompozytnykh elementiv rukhomykh ziednan v zoni tertia [ Naukovyi visnyk Tavriiskoho derzhavnoho ahrotekhnolohichnoho universytetu: Vronnekove . 11, vol. 1, stattia21 ] .
1 5. Aulin V., Derkach O., Makarenko D., Khrynkiv A., Krutous D., Muranov E. (2020). Development of a system for diagnosing bearing assemblies with polymer parts during operation [ Technology audit and production reserves № 5/1 (55) ] рр.18-20.
16. Aulin V., Derkach O., Makarenko D., Hrynkiv A. and in. (2019). Analysis of tribological efficiency of movable junctions "polymeric-composite materials - steel" [ Eastern-European Journal of Enterprise Technologies. Vol. 4 (12-100) ] P. 6-15.
17. Aulin VV , Derkach OD, Kabat OS, Makarenko DO, Hrynkiv AV, Krutous DI (2020). Application of polymer composites in the design of agricultural machines for tillage [ Problems of Tribology, V. 25, No 2 / 96-2020 ] - P. 49-58.
18. Aulin V., Kobets A., Derkach O., Makarenko D., Hrynkiv A. and in. (2020). Design of mated parts using polymeric materials with enhanced tribotechnical characteristics [ Eastern-European Journal of Enterprise Technologies. Vol.5 (12-107) ] P. 49-57.
19. Aulin VV (2016). Trybofizychni osnovy pidvyshchennia nadiinosti mobilnoi silskohospodarskoi ta avtotransportnoi tekhniky tekhnolohiiamy trybotekhnichnoho vidnovlennia: monohrafiia [Kropyvnytskyi: Lysenko VF] 303 s.
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Published
2022-06-25
How to Cite
Aulin, V., Lysenko, S., Hrynkiv, A., Derkach, O., & Makarenko, D. (2022). Influence of high-modulus filler content on critical load on tribocouples made of microheterophase polymer composite materials. Problems of Tribology, 27(2/104), 71–79. https://doi.org/10.31891/2079-1372-2022-104-2-71-79
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