[HTML][HTML] Development of a porous Ti–35Nb–5In alloy with low elastic modulus for biomedical implants
L Romero-Resendiz, MC Rossi… - journal of materials …, 2023 - Elsevier
A new porous Ti–35Nb–5In alloy was designed to join the advantages of low elastic
modulus and non-toxicity, which are critical factors for biomedical implants. The Ti–35Nb–
5In alloy was produced by powder metallurgy, and its feasibility as implant material was
evaluated through mechanical properties, ion release, and electrochemical assessments.
The microstructure of the Ti–35Nb–5In alloy consisted of acicular α-phase and fine α''-phase
within a micrometric β-phase matrix. A low elastic modulus of 63 GPa, as well as hardness …
modulus and non-toxicity, which are critical factors for biomedical implants. The Ti–35Nb–
5In alloy was produced by powder metallurgy, and its feasibility as implant material was
evaluated through mechanical properties, ion release, and electrochemical assessments.
The microstructure of the Ti–35Nb–5In alloy consisted of acicular α-phase and fine α''-phase
within a micrometric β-phase matrix. A low elastic modulus of 63 GPa, as well as hardness …
Development of a porous Ti-35Nb-5In alloy with low elastic modulus for biomedical implants
L Romero-Resendiz, MC Rossi… - JOURNAL OF …, 2022 - bv.fapesp.br
A new porous Ti-35Nb-5In alloy was designed to join the advantages of low elastic modulus
and non-toxicity, which are critical factors for biomedical implants. The Ti-35Nb-5In alloy was
produced by powder metallurgy, and its feasibility as implant material was evaluated
through mechanical properties, ion release, and electrochemical assessments. The
microstructure of the Ti-35Nb-5In alloy consisted of acicular a-phase and fine a"-phase
within a micrometric b-phase matrix. A low elastic modulus of 63 GPa, as well as hardness …
and non-toxicity, which are critical factors for biomedical implants. The Ti-35Nb-5In alloy was
produced by powder metallurgy, and its feasibility as implant material was evaluated
through mechanical properties, ion release, and electrochemical assessments. The
microstructure of the Ti-35Nb-5In alloy consisted of acicular a-phase and fine a"-phase
within a micrometric b-phase matrix. A low elastic modulus of 63 GPa, as well as hardness …
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