Details

Autor(en) / Beteiligte

• Gambaro, S.
• Valenza, F.
• Muolo, M.L.
• Passerone, A.
• Riani, P.
• Cacciamani, G.

Titel

Zirconia-high entropy alloys joints for biomedical applications: The role of Ag-based fillers on interfacial reactivity

Ist Teil von

• Journal of alloys and compounds, 2022-07, Vol.909, p.164764, Article 164764

Ort / Verlag

Lausanne: Elsevier B.V

Erscheinungsjahr

2022

Quelle

Access via ScienceDirect (Elsevier)

Beschreibungen/Notizen

• Metal-ceramic joints represent an important choice for biomedical devices, in orthopaedic field or as micro-stimulators. ZrO2-Ag-HEA joint is here proposed to replace the currently used Ti6Al4V by new Ti-based refractory HEAs. To evaluate the system reactivity, wettability of ZrO2 by different Ag-based alloys at 1000 °C and their interfacial layers were studied, for the first time. Interpretation and discussion of systems reactivity were supported by thermodynamic calculations, according to the CALPHAD approach and the ad-hoc Ag-Ti-Zr-O thermodynamic database, implemented in this work. A good wettability was reached at 1000 °C adding Ti to Ag: Ag-4Ti and Ag-8Ti reached contact angles of 81–85°. Ag-4Ti-2Zr showed the best wettability (77°) and the most complex interfacial microstructure. A continuous hcp (Ti,O), ~ 20 µm thick, promoted the wettability of Ag-4Ti and Ag-8Ti. In both cases, AgTi was the only intermetallic compound found in the bulk. Ag-4Ti-2Zr formed a thicker interfacial layer of hcp-(Ti,Zr,O) + bcc-(Ti,Zr) + a less compact Ag(Ti,Zr)2 layer. Here, a low amount of Ag(Ti,Zr) and Ag(Ti,Zr)2 was found in the Ag matrix. Since Ag resulted a promising filler to braze Ti-rich substrates to ZrO2 at 1000 °C, preliminary HEA-Ag-ZrO2 joints were characterized. A sound and defects-free interface was observed, with a first layer, mainly formed by Ag, Ti and Zr (HV ~ 600), and a Ag-based interface (HV ~ 250), extending until the HEA. Further works envisage mechanical and electrochemical evaluations of the system to pave the way for the production of novel HEA-Ag-ZrO2 joints to be used in biomedical applications. [Display omitted] •Ti addition to Ag promoted ZrO2wettability at 1000 °C forming hcp-(Ti,O) at the interface.•Ag-4Ti-2Zr tested on ZrO2 at 1000 °C showed the best wettability (ϑ<80°).•An ad-hoc Ag-O-Ti-Zr database was assembled and used to support reactivity discussion.•Ag-4Ti-2Zr showed an hcp-(Ti,O)+bcc-(Ti,Zr)+Ag(Ti,Zr)2 interfacial layer formed at 1000 °C.•Ti1.5ZrTa0.5Hf0.5Nb0.5 HEA was successfully brazed to ZrO2 by using a Ag filler at 1000 °C.