Synthesis of Ti-Al-xNb ternary alloys via laser-engineered net shaping for biomedical application: Densification, electrochemical and mechanical properties studies
Synthesis of Ti-Al-xNb ternary alloys via laser-engineered net shaping for biomedical application: Densification, electrochemical and mechanical properties studies
The lives of many people around the world are impaired and shortened mostly by cardiovascular diseases (CVD). Despite the fact that medical interventions and surgical heart transplants may improve the lives of patients suffering from cardiovascular disease, the cost of treatments and securing a perfect donor are aspects that compel patients to consider cheaper and less invasive therapies. The use of synthetic biomaterials such as titanium-based implants are an alternative for cardiac repair and regeneration. In this work, an in situ development of Ti-Al-xNb alloys were synthesized via laser additive manufacturing for biomedical application. The effect of Nb composition on Ti-Al was investigated. The microstructural evolution was characterized using a scanning electron microscope (SEM) equipped with energy dispersive spectroscopy (EDS). A potentiodynamic polarization technique was utilized to investigate the corrosion behavior of TiAl-Nb in 3.5% NaCl. The microhardness and corrosion behaviour of the synthesized Ti-Al-Nb alloys were found to be dependent on laser-processing parameters. The microhardness performance of the samples increased with an increase in the Nb feed rate to the Ti-Al alloy system. Maximum microhardness of 699.8 HVN was evident at 0.061 g/min while at 0.041 g/min the microhardness was 515.8 HVN at Nb gas carrier of 1L/min, respectively.
Reference:
Kanyane, L., Popoola, A., Pityana, S.L. & Tlotleng, M. 2022. Synthesis of Ti-Al-xNb ternary alloys via laser-engineered net shaping for biomedical application: Densification, electrochemical and mechanical properties studies. Materials, 15(2). http://hdl.handle.net/10204/12267
Kanyane, L., Popoola, A., Pityana, S. L., & Tlotleng, M. (2022). Synthesis of Ti-Al-xNb ternary alloys via laser-engineered net shaping for biomedical application: Densification, electrochemical and mechanical properties studies. Materials, 15(2), http://hdl.handle.net/10204/12267
Kanyane, LR, API Popoola, Sisa L Pityana, and Monname Tlotleng "Synthesis of Ti-Al-xNb ternary alloys via laser-engineered net shaping for biomedical application: Densification, electrochemical and mechanical properties studies." Materials, 15(2) (2022) http://hdl.handle.net/10204/12267
Kanyane L, Popoola A, Pityana SL, Tlotleng M. Synthesis of Ti-Al-xNb ternary alloys via laser-engineered net shaping for biomedical application: Densification, electrochemical and mechanical properties studies. Materials, 15(2). 2022; http://hdl.handle.net/10204/12267.