Preprint Article Version 1 Preserved in Portico This version is not peer-reviewed

Solid Particle Erosion of Unfilled and Filled Epoxy Resin at Room and Elevated Temperatures

Maxim Mishnev
* ORCID logo ,
Alexander Korolev
* ,
Dmitrii Ulrikh
ORCID logo ,
Anna Gorechneva
,
Denis Sadretdinov
,
Danila Grinkevich
Version 1 : Received: 19 November 2022 / Approved: 21 November 2022 / Online: 21 November 2022 (06:38:01 CET)

How to cite: Mishnev, M.; Korolev, A.; Ulrikh, D.; Gorechneva, A.; Sadretdinov, D.; Grinkevich, D. Solid Particle Erosion of Unfilled and Filled Epoxy Resin at Room and Elevated Temperatures. Preprints 2022, 2022110377. https://doi.org/10.20944/preprints202211.0377.v1 Mishnev, M.; Korolev, A.; Ulrikh, D.; Gorechneva, A.; Sadretdinov, D.; Grinkevich, D. Solid Particle Erosion of Unfilled and Filled Epoxy Resin at Room and Elevated Temperatures. Preprints 2022, 2022110377. https://doi.org/10.20944/preprints202211.0377.v1

Abstract

The solid particle erosion at room and elevated temperatures of pure and filled hot-curing epoxy resin on anhydride hardener was experimentally tested using accelerated method on special bench. Micro-sized dispersed industrial wastes were used as fillers: fly-ash from a power plant and spent filling material from a copper mining and processing plant. The results showed that the unfilled resin wear significantly decreases with increasing temperature, while the dependence on the temperature of the wear intensity at an impingement angle of 45o is linear inversely proportional, and at an angle of 90o non-linear. The decrease in wear intensity is probably due to an increase in elasticity (an increase in the fracture strain limit) because of heating. Solid particle erosion of the examined filled epoxy compounds is considerably higher than that of unfilled compounds at impingement angles of 90o and 45o. Filled compounds showed ambiguous dependences of intensity of wear from temperature (especially at an angle of attack 45o), probably, character of dependence is defined by a filler share and the structural features of the samples caused by distribution of particles of the filler. Intensity of wear of the considered compounds at impingement angles 90o and 45o has high direct correlation with density and the modulus of elasticity (i.e., increases with their increase), and low correlation with bending strength of the considered materials. The data set for determining the correlation between mechanical properties and wear included characteristics due to both compound filling and test temperature.

Keywords

solid particle erosion; epoxy resin; thermoset polymers; fly-ash; filled compound; elasticity modu-lus; bending strength

Subject

Chemistry and Materials Science, Polymers and Plastics

Copyright: This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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