Fabrication of an al2o3-1% ti composite with some characteristics of a biomaterial-Reference-Cited by-同舟云学术

Fabrication of an al2o3-1% ti composite with some characteristics of a biomaterial

Published:2022 Issue:4 Volume:54 Page:415-424
ISSN:0350-820X
Container-title:Science of Sintering
language:en
Short-container-title:SCI SINTER

Author:

Alvarez-Carrizal Ruth¹,Refugio-García Elizabeth²,García Rodríguez-¹,Hernández Miranda³,Rocha-Rangel Enrique¹

Affiliation:

1. Manufacture Department, Universidad Politécnica de Victoria, México

2. Materials Department, Universidad Autónoma Metropolitana, México

3. Industrial Materials Research and Development Laboratory, Universidad Autónoma del Estado de México, Centro Universitario UAEM Valle de México, México

Abstract

An Al2O3-1 wt.% Ti composite was prepared by powder techniques with the intention of analyzing its mechanical and chemical properties for its possible application as a biomaterial. Alumina was synthesized using the reaction bonding aluminum oxide (RBAO) process. The powders resulting from the milling stage present sizes minor than 1.5 microns. With the help of X-ray diffraction and differential thermal analysis, it was determined that aluminum oxidizes in both solid and liquid states during the RBAO process. It was also found that the alumina formation reaction in this process is completed at 1,100oC. From the measurements of mechanical properties (HV, KIC, E) in the Al2O3-1 wt.% Ti composite, it was determined that these properties are better than the same properties of compact bone. Electrochemical impedance spectroscopy, indicates that additions of 1 wt.% Ti on Al2O3 enhance its corrosion resistance. The bioactivation of a Al2O3-1 wt.% Ti composite was successful using a biomimetic method, because after 21 days, hydroxyapatite begins to proliferate on the surface of the substrate. With all these results it can be commented that it is feasible to use Al2O3-1 wt.% Ti composite in the elaboration of synthetic bone for its application as a biomaterial.

Publisher

National Library of Serbia

Subject

Materials Chemistry,Metals and Alloys,Condensed Matter Physics,Ceramics and Composites

Reference28 articles.

1. C. Ning, Y. Zhou, Biomaterials 23 (2002) 2909.

2. M. Mirković, L. Kljajević, S. Filipović, V. Pavlović, S. Nenadović, Sci. Sint., 52 (2020) 405.

3. A. Cîmpean, F. Miculescu. Eds. Biomaterials and Implant Biocompatibility, MDPI Books, Switzerland, 2020.

4. V. Z. Mališić, N. Z. Tomić, M. M. Vuksanović, B. D. Balanč, Z. M. Stević, A. D. Marinković, R. M. J. Heinemann, S. S. Putić, Sci. Sint., 52 (2020) 457.

5. W. R. Wagnere, S. E. Sakiyama-Elbert, G. Zhang, M. J. Yaszemski, Biomaterials Science An Introduction to Materials in Medicine, 4th ed. Academic Press, Cambridge, Massachusetts, USA (2020).