Impact of the High-Speed Flow of Powder Particles on the Structure of Polymer Materials and Metal-Polymer Composites
Environment. Technologies. Resources: Proceedings of the 13th International Scientific and Practical Conference. Vol.3 2021
Yulia Usherenko, Viktors Mironovs, Leonīds Pakrastiņš

The problem of protecting spacecraft from cosmic dust has recently come to the fore. There is still no enough data on the complex effect of short-term high-energy, dynamic loading on materials, includingpolymer materials and multilayer polymer-metal composites.The use of dynamic alloying in the super-deep penetration (SDP) mode by high-speed flows of powder particles allows assessingthe effect on the material under dynamic action.Previous studies on steel and aluminum samples have shown a significant effect of high-speed flows of powder particles on the structure and properties of materials. As a result of a study of samples made of aliphatic polyurethane with steel reinforcement elements, it was found that there are traces of the penetration of high-speed particles into both metal and polymer layers. However, the number of flowelements detected in the polymeric part is significantly less than the number of elements in the metal reinforcing part. Thus, it is possible to assume that orthe polymer material is a more effective barrier to the high-speed flowcompared to the metal, or the “self-healing”effect is observed.


Keywords
cosmic dust, super-deep penetration, composites, powders, polymers, dynamic alloying
DOI
10.17770/etr2021vol3.6627
Hyperlink
http://journals.rta.lv/index.php/ETR/article/view/6627

Usherenko, Y., Mironovs, V., Pakrastiņš, L. Impact of the High-Speed Flow of Powder Particles on the Structure of Polymer Materials and Metal-Polymer Composites. In: Environment. Technologies. Resources: Proceedings of the 13th International Scientific and Practical Conference. Vol.3, Latvia, Rēzekne, 17-18 June, 2021. Rēzekne: Rēzeknes Tehnoloģiju Augstskola, 2021, pp.363-367. ISSN 1691-5402. e-ISSN 2256-070X. Available from: doi:10.17770/etr2021vol3.6627

Publication language
English (en)
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