Nanomaterials (Feb 2024)

Investigations on the Degradation Behavior of Processed FeMnSi-xCu Shape Memory Alloys

  • Ana-Maria Roman,
  • Ramona Cimpoeșu,
  • Bogdan Pricop,
  • Marius Mihai Cazacu,
  • Georgeta Zegan,
  • Bogdan Istrate,
  • Alexandru Cocean,
  • Romeu Chelariu,
  • Mihaela Moscu,
  • Gheorghe Bădărău,
  • Nicanor Cimpoeșu,
  • Mircea Cătălin Ivănescu

DOI
https://doi.org/10.3390/nano14040330
Journal volume & issue
Vol. 14, no. 4
p. 330

Abstract

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A new functional Fe-30Mn-5Si-xCu (x = 1.5 and 2 wt%) biomaterial was obtained from the levitation induction melting process and evaluated as a biodegradable material. The degradation characteristics were assessed in vitro using immersion tests in simulated body fluid (SBF) at 37 ± 1 °C, evaluating mass loss, pH variation that occurred in the solution, open circuit potential (OCP), linear and cyclic potentiometry (LP and CP), scanning electron microscopy (SEM), energy dispersive spectroscopy (EDS) and nano-FTIR. To obtain plates as samples, the cast materials were thermo-mechanically processed by hot rolling. Dynamic mechanical analysis (DMA) was employed to evaluate the thermal properties of the smart material. Atomic force microscopy (AFM) was used to show the nanometric and microstructural changes during the hot rolling process and DMA solicitations. The type of corrosion identified was generalized corrosion, and over the first 3–5 days, an increase in mass was observed, caused by the compounds formed at the metal–solution interface. The formed compounds were identified mainly as oxides that passed into the immersion liquid. The degradation rate (DR) was obtained as a function of mass loss, sample surface area and immersion duration. The dynamic mechanical behavior and dimensions of the sample were evaluated after 14 days of immersion. The nanocompounds found on the surface after atmospheric corrosion and immersion in SBF were investigated with the Neaspec system using the nano-FTIR technique.

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