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Structure Optimization of a Fe-Mn-Pd Alloy by Equal-Channel Angular Pressing for Biomedical Use.

Olga V RybalchenkoNatalia Yu AnisimovaNatalia MartynenkoGeorgy RybalchenkoMikhail KiselevskiyConstantine LikhnitskiiIgor ShchetininArseniy G RaabSergey Dobatkin
Published in: Materials (Basel, Switzerland) (2022)
In this work, a Fe-Mn-Pd alloy was produced by methods of equal channel angular pressing (ECAP) in order to obtain an alloy with a high rate of degradation for the development of biodegradable devices. Special efforts were made to the obtaining of an ultrafine-grained structure of alloys in a fully austenitic state at temperatures of 300 °C and 450 °C. Further investigation of its effect on the corrosion rate and mechanical properties was carried out. The formation of an austenitic structure with structural element sizes of 100-250 nm after deformation was confirmed by X-ray diffraction analysis. ECAP proved to be the reason for a significant increase in strength with maximum σ UTS = 1669 MPa and σ YS = 1577 MPa while maintaining satisfactory plasticity. The alloy degradation rate was investigated using the potentiodynamic polarization analysis. The corrosion rate of the alloy after ECAP (~1 mm/y) is higher than that of the coarse-grained state and significantly higher than that of annealed iron (~0.2 mm/y). ECAP in both modes did not impair the biocompatibility of the Fe-Mn-Pd alloy and the colonization of the sample surface by cells.
Keyphrases
  • metal organic framework
  • molecular dynamics
  • induced apoptosis
  • drug delivery
  • room temperature
  • magnetic resonance
  • oxidative stress
  • cell death
  • aqueous solution