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The Effect Of Slow Strain Rate Tension And Cyclic Loading On Biodegradable Zn–2%Fe–0.8%Mn Alloy In A Simulated Physiological Environment, Lital Ben Tzion-Mottye, Adi Bahar, Tomer Ron, Galit Katarivas Levy, Jeremy Goldman, Dan Eliezer, Eli Aghion
The Effect Of Slow Strain Rate Tension And Cyclic Loading On Biodegradable Zn–2%Fe–0.8%Mn Alloy In A Simulated Physiological Environment, Lital Ben Tzion-Mottye, Adi Bahar, Tomer Ron, Galit Katarivas Levy, Jeremy Goldman, Dan Eliezer, Eli Aghion
Michigan Tech Publications, Part 2
Zinc-based alloys have gained increased interest as biodegradable structural materials for medical applications due to their adequate biocompatibility, crucial roles in many physiological functions and attractive antibacterial properties. However, the major drawbacks of zinc alloys relate to their inadequate mechanical properties and tendency to provoke fibrous encapsulation due to relatively high standard potential. Based on the promising effect of Mn on properties of Zn-based alloys, the present study aimed at evaluating the suitability of Zn–2%Fe–0.8%Mn alloy as a potential biodegradable implant under in-vitro conditions. This evaluation focused on the passivation characteristics as determined by cyclic potentiodynamic polarization analysis, immersion test, …