Journal
CORROSION SCIENCE
Volume 200, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.corsci.2022.110238
Keywords
A; Titanium; B; EIS; TEM; STEM; XPS; C; Passive films
Funding
- National Science Centre in Poland [PRELUDIUM 15 [2018/29/N/ST8/02306]]
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This study provides insights into the effects of nanostructure and crystallographic texture on Ti corrosion resistance under simulated inflammatory conditions. The development of a basal texture component was found to provide the most advantageous corrosion properties for prolonged immersion in a simulated inflammatory environment.
This study provides an insight into the separate and combined effects of nanostructure and crystallographic texture on time-dependent Ti corrosion resistance under simulated inflammatory conditions. In order to achieve this objective, the following Ti products were fabricated by differential large plastic deformation methods: (i) nano Ti materials with virtually the same grain size but distinct crystallographic textures, and (ii) Ti materials with different microstructures but similar crystallographic textures. Overall, electrochemical and XPS studies revealed that the development of a basal texture component provides the most advantageous corrosion properties in terms of prolonged immersion in a simulated inflammatory environment.
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