Mechanical and corrosion properties of biomedical (TiZr)90-xNbxTa5Mo5 medium entropy alloys

High- or medium-entropy alloys with single phase body centered cubic (BCC) structure have attracted significant scientific interests recently, due to their great potentials for biomedical applications. However, BCC high entropy alloys generally do not have good tensile ductility at room temperature....

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Bibliographic Details
Published in:International journal of refractory metals & hard materials 2023-11, Vol.116, p.106361, Article 106361
Main Authors: Lin, Shikun, Lai, Weiji, Vogel, Florian, Tong, Xin, You, Deqiang, Li, Wei, Wang, Xiaojian
Format: Article
Language:English
Subjects:
Biomedical applications
Biomedical medium entropy alloys
Corrosion resistance
Mechanical properties
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Summary:High- or medium-entropy alloys with single phase body centered cubic (BCC) structure have attracted significant scientific interests recently, due to their great potentials for biomedical applications. However, BCC high entropy alloys generally do not have good tensile ductility at room temperature. Herein, we utilize the valence electron concentration (VEC) theory to design three (TiZr)90-xNbxTa5Mo5 (x = 5,10,15) biomedical medium entropy alloys (BioMEAs). The BioMEAs showed a single phase BCC structure, a low elastic modulus of 79.2 ± 1.6–82.9 ± 1.2 GPa, a good tensile ductility of 24.4%, and a high specific yield strength of 141.2–137.4 10−3 MPa∙m3/kg. The good tensile ductility of the alloys was found attributed to the cross-slip of mixed dislocations and the formation of kink bands, avoiding the excessive entanglement of dislocations and relieving stress concentration. The increase of Nb content (5–15 at.% Nb) contributed little to the yield strength of the BioMEAs. In addition, the (TiZr)90-xNbxTa5Mo5 alloys showed excellent corrosive resistance in modified Fusayama saliva (MFS) solution, in which passive films composed of a variety of oxides spontaneously developed on the exposed surfaces. Our work has cast new light to develop lightweight and economical BioMEAs with excellent comprehensive properties. •The (TiZr)90-xNbxTa5Mo5 (x = 5, 10, 15) BioMEAs with excellent mechanical properties were developed.•The toughening mechanism mechanism of the Ti-Zr-Nb-Ta-Mo BioMEAs with different Nb content was revealed.•These BioMEAs showed excellent corrosive resistance (34–63 nA∙cm−2) in modified Fusayama saliva (MFS) solution.
ISSN:0263-4368
DOI:10.1016/j.ijrmhm.2023.106361