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Chemistry for Sustainable Development

2020 year, number 1

Mechanochemical Preparation of Fe/M/UHMWPE Ternary Composites (M = TiC, HfC, TiB2, B4C) under Intense Plastic Deformation

S. A. KOVALEVA1, V. I. ZHORNIK1, P. A. VITYAZ1, T. F. GRIGOREVA2, S. V. VOSMERIKOV2, N. Z. LYAKHOV2
1Joint Institute of Mechanical Engineering, Belarusian National Academy of Sciences, Minsk, Belarus
2Institute of Solid State Chemistry and Mechanochemistry, Siberian Branch, Russian Academy of Sciences, Novosibirsk, Russia
Keywords: СВМПЭ, железо, карбиды, борид титана, механическая обработка, механокомпозиты, наполненные полимеры, UHMWPE, iron, carbides, titanium boride, mechanical treatment, mechanocomposites, filled polymers
Pages: 22-27

Abstract

Structural changes of ultrahigh-molecular polyethylene (UHMWPE), modified by inorganic mechanocomposites Fe/M (M = TiC, HfC, TiB2, B4C) (70 mass %) under intense plastic deformation in a planetary ball mill, were investigated by means of X-ray phase analysis and FTIR spectroscopy. At a short treatment time, the molecular structure of initial UHMWPE is not disturbed, and the change in the shape of powder particles is due to the segmental mobility of macromolecules. The introduction of inorganic mechanocomposites (fillers) into the polymer leads to the formation of a polymer-filler interfacial zone with a branched polymer structure. The crystallinity degree of mechanochemically obtained Fe/M/UHMWPE composites is reduced to 25-40 vol. %, compared to 44 vol. % for initial UHMWPE, depending on the filler nature. No oxidative degradation of the polymer is observed under mechanical treatment.

DOI: 10.15372/CSD2020198