Funct. Mater. 2022; 29 (3): 388-392.

doi:https://doi.org/10.15407/fm29.03.388

Studying the influence of HB-4 amorphous alloy on tribological properties of phenylone aromatic polyamide

A.-M.V.Tomina, Ye.A.Yeriomina

Dniprovsk State Technical University, 2 Dniprobudivska Str., 51918 Kamyanske, Ukraine

Abstract: 

The article considers the influence of the content of the amorphous HB-4 alloy on the tribological properties of aromatic polyamide phenylone C-2. It has been established that the introduction of 10-20 wt.% of a dispersed filler leads to a decrease in the intensity of linear wear and roughness by 3.7-5 and 1.3-2.4 times, respectively, on the surface of the original polymer; the maximum positive effect is achieved at 20 mass% filler. The formation of a transfer film on a steel counterbody makes it possible to increase the wear resistance of metal polymers by 1.5 times, that is, friction occurs on a smoother surface according to the "composite-composite" scheme, and the steel counterbody almost does not take part in the friction process. It was found that the effective content of the filler in the polymer matrix is 20 mass%.

Keywords: 
aromatic polyamide phenylone C-2, HB-4 amorphous alloy, intensity of linear wear, friction coefficient, metal polymers.

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References: 
1. A.I.Burya, A.-M.V.Tomina, Ye.A.Yeriomina, J. Technological Systems, 86, 1 (2019).
 
2. V.A.Belevitin, E.A Gnatyishina, E.N.Smirnov, M.L.Hasanova. In: Study guide Materials Science: New Structural Materials: Educational Edition, Chelyabinsk (2019) [in Russian].
 
3. A.I.Burya, Ye.A.Yeriomina, X.Y.Qian, X.M.Feng, J. Advanced Materials Research, 1004 (2014).
https://doi.org/10.4028/www.scientific.net/AMR.1004-1005.509
 
4. A.I.Burya. Ye.A.Yeriomina, V.I.Sytar, S.V.Kalinichenko, J. Problems of Friction and Wear, 73, 4 (2016).
 
5. Ye.A.Yeriomina, dis. for the degree of cand. tech. science (2017).
 
6. O.B.Lysenko, O.L.Kosynska, S.V.Gubarev, T.V.Kalinina, J. Metallofizika i Noveishie Tekhnologii, 36, 10 (2014).
 
7. A.B.Lysenko, G.V.Borisova, O.L.Kravets, A.A.Lysenko, J. Phys. of Metals and Metallography, 106, 5 (2008).
https://doi.org/10.1134/S0031918X08070028
 
8. O.B.Lysenko, O.L.Kravets, O.O.Lysenko, J. Metallofizika i Noveishie Tekhnologii, 30, 3 (2008).
 
9. V.I.Sytar. O.S.Kabat, J. Questions of Chemistry and Chemical Technology, 107, 3 (2016).
 
10. http://melta.com.ua/pro-kompaniyu/
 
11. A.I.Burya, Y.A.Yeriomina, J. Friction and Wear, 37, 2 (2016).
https://doi.org/10.3103/S1068366616020033
 
12. I.V.Kragelskiy, Friction and Wear, Engineering, Moscow (1968) [in Russian].
 
13. N.K.Myshkin. M.I.Petrokovets, Tribology. Principles and Applications. IMMS NASB, Gomel (2002) [in Russian].

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