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Impact loading of laminated composites ZrO2/Ti and ZrO2/Al with non-rigid interfaces
Russian version
DOI: 10.21883/TPL.2023.05.56022.19501
Gomorova Yu.F. 1, Buyakova S.P. 1, Burlachenko A.G. 1, Buyakov A.S. 1, Kuznetsova A.E. 1, Dontsov Yu.V.2
1Institute of Strength Physics and Materials Science of Siberian Branch of Russian Academy of Sciences, Tomsk, Russia
2Tomsk Polytechnic University, Tomsk, Russia
Email: gomjf@ispms.ru, sbuyakova@ispms.ru, aleksandrburlachenko@ispms.ru, alesbuyakov@gmail.com, aekuznetsova@ispms.tsc.ru, Doncov@mail2000.ru
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The article presents the results of studying the impact response of ceramic-metal composites ZrO2/Ti and ZrO2/Al with non-rigid fixing of layers. It is shown that, as the energy dissipates from layer to layer, there takes place an increase in the dispersion of the structure of metal foils and ceramic plates. The ZrO2/Ti ceramic-metal composites have a higher impact strength, while the impact strength of layered ZrO2/Al composites differs from the impact strength of monolithic ceramics only scarcely. It was shown that, regardless of the distance between the ceramic plates and the point of impact, their destruction occurs with the transformation of the ZrO2 tetragonal modification into the monoclinic one. Keywords: layered ceramic-metal composites, impact strength.
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