Nanomaterials (Apr 2021)

Advances in Laser Additive Manufacturing of Ti-Nb Alloys: From Nanostructured Powders to Bulk Objects

  • Margarita A. Khimich,
  • Konstantin A. Prosolov,
  • Tatiana Mishurova,
  • Sergei Evsevleev,
  • Xavier Monforte,
  • Andreas H. Teuschl,
  • Paul Slezak,
  • Egor A. Ibragimov,
  • Alexander A. Saprykin,
  • Zhanna G. Kovalevskaya,
  • Andrey I. Dmitriev,
  • Giovanni Bruno,
  • Yurii P. Sharkeev

DOI
https://doi.org/10.3390/nano11051159
Journal volume & issue
Vol. 11, no. 5
p. 1159

Abstract

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The additive manufacturing of low elastic modulus alloys that have a certain level of porosity for biomedical needs is a growing area of research. Here, we show the results of manufacturing of porous and dense samples by a laser powder bed fusion (LPBF) of Ti-Nb alloy, using two distinctive fusion strategies. The nanostructured Ti-Nb alloy powders were produced by mechanical alloying and have a nanostructured state with nanosized grains up to 90 nm. The manufactured porous samples have pronounced open porosity and advanced roughness, contrary to dense samples with a relatively smooth surface profile. The structure of both types of samples after LPBF is formed by uniaxial grains having micro- and nanosized features. The inner structure of the porous samples is comprised of an open interconnected system of pores. The volume fraction of isolated porosity is 2 vol. % and the total porosity is 20 vol. %. Cell viability was assessed in vitro for 3 and 7 days using the MG63 cell line. With longer culture periods, cells showed an increased cell density over the entire surface of a porous Ti-Nb sample. Both types of samples are not cytotoxic and could be used for further in vivo studies.

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