Effects of basalt fibers and particles in providing tribotechnical properties of UHMWPE composites under varying wear test conditions

Abstract

The mechanical and tribotechnical characteristics of UHMWPE based composites filled with basalt microparticles and fibers under dry friction and various test conditions (P·V) have been studied. It is shown that from the position of increasing resistance to wear under dry sliding friction, basalt particles and fibers during reinforcement of the UHMWPE matrix are equally effective at moderate loading and speed: the wear resistance of composites has increased by 1.5 times with a content of 10 wt. % filler while the coefficient friction - in 1.8 times. Mechanisms of wear of polymer composites based on UHMWPE filled with particles/fibers of basalt under different conditions of triboloading have been discussed.

Original language	English
Title of host publication	Oil and Gas Engineering, OGE 2018
Editors	Alexander V. Myshlyavtsev, Vladimir A. Likholobov, Vladimir L. Yusha
Publisher	American Institute of Physics Inc.
Volume	2007
ISBN (Print)	9780735417236
DOIs	https://doi.org/10.1063/1.5051940
Publication status	Published - 23 Aug 2018
Event	Oil and Gas Engineering, OGE 2018 - Omsk, Russian Federation Duration: 26 Feb 2018 → 2 Mar 2018

Conference

Conference	Oil and Gas Engineering, OGE 2018
Country	Russian Federation
City	Omsk
Period	26.2.18 → 2.3.18

ASJC Scopus subject areas

Physics and Astronomy(all)

Access to Document

10.1063/1.5051940

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Panin, S. V., Alexenko, V. O., Kornienko, L. A., Buslovich, D. G., & Ivanova, L. R. (2018). Effects of basalt fibers and particles in providing tribotechnical properties of UHMWPE composites under varying wear test conditions. In A. V. Myshlyavtsev, V. A. Likholobov, & V. L. Yusha (Eds.), Oil and Gas Engineering, OGE 2018 (Vol. 2007). [040013] American Institute of Physics Inc.. https://doi.org/10.1063/1.5051940

Effects of basalt fibers and particles in providing tribotechnical properties of UHMWPE composites under varying wear test conditions. / Panin, S. V.; Alexenko, V. O.; Kornienko, L. A.; Buslovich, D. G.; Ivanova, L. R.

Oil and Gas Engineering, OGE 2018. ed. / Alexander V. Myshlyavtsev; Vladimir A. Likholobov; Vladimir L. Yusha. Vol. 2007 American Institute of Physics Inc., 2018. 040013.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Panin, SV, Alexenko, VO, Kornienko, LA, Buslovich, DG & Ivanova, LR 2018, Effects of basalt fibers and particles in providing tribotechnical properties of UHMWPE composites under varying wear test conditions. in AV Myshlyavtsev, VA Likholobov & VL Yusha (eds), Oil and Gas Engineering, OGE 2018. vol. 2007, 040013, American Institute of Physics Inc., Oil and Gas Engineering, OGE 2018, Omsk, Russian Federation, 26.2.18. https://doi.org/10.1063/1.5051940

Panin SV, Alexenko VO, Kornienko LA, Buslovich DG, Ivanova LR. Effects of basalt fibers and particles in providing tribotechnical properties of UHMWPE composites under varying wear test conditions. In Myshlyavtsev AV, Likholobov VA, Yusha VL, editors, Oil and Gas Engineering, OGE 2018. Vol. 2007. American Institute of Physics Inc. 2018. 040013 https://doi.org/10.1063/1.5051940

Panin, S. V. ; Alexenko, V. O. ; Kornienko, L. A. ; Buslovich, D. G. ; Ivanova, L. R. / Effects of basalt fibers and particles in providing tribotechnical properties of UHMWPE composites under varying wear test conditions. Oil and Gas Engineering, OGE 2018. editor / Alexander V. Myshlyavtsev ; Vladimir A. Likholobov ; Vladimir L. Yusha. Vol. 2007 American Institute of Physics Inc., 2018.

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AB - The mechanical and tribotechnical characteristics of UHMWPE based composites filled with basalt microparticles and fibers under dry friction and various test conditions (P·V) have been studied. It is shown that from the position of increasing resistance to wear under dry sliding friction, basalt particles and fibers during reinforcement of the UHMWPE matrix are equally effective at moderate loading and speed: the wear resistance of composites has increased by 1.5 times with a content of 10 wt. % filler while the coefficient friction - in 1.8 times. Mechanisms of wear of polymer composites based on UHMWPE filled with particles/fibers of basalt under different conditions of triboloading have been discussed.

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