Ontology type: schema:ScholarlyArticle
2017-05-18
AUTHORSM. F. Ijaz, S. Dubinskiy, Y. Zhukova, A. Korobkova, Y. Pustov, V. Brailovski, S. Prokoshkin
ABSTRACTThe aim of the present work was first to develop and validate a test bench that simulates the in vitro conditions to which the biomedical implants will be actually subjected in vivo. For the preliminary application assessments, the strain-controlled fatigue tests of biomedically pure Ti and Ti–Nb–Zr alloy in simulated body fluid were undertaken. The in situ open-circuit potential measurements from the test bench demonstrated a strong dependence on the dynamic cycling and kind of material under testing. The results showed that during fatigue cycling, the passive oxide film formed on the surface of Ti–Nb–Zr alloy was more resistant to fatigue degradation when compared with pure Ti. The Ti–Nb–Zr alloy exhibited prolonged fatigue life when compared with pure Ti. The fractographic features of both materials were also characterized using scanning electron microscopy. The electrochemical results and the fractographic evidence confirmed that the prolonged functional fatigue life of the Ti–Nb–Zr alloy is apparently ascribable to the reversible martensitic phase transformation. More... »
PAGES1334-1339
http://scigraph.springernature.com/pub.10.1007/s11837-017-2375-x
DOIhttp://dx.doi.org/10.1007/s11837-017-2375-x
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