Manufacturing and Study of Mechanical Properties, Structure and Compatibility with Biological Objects of Plates and Wire from New Ti-25Nb-13Ta-5Zr Alloy

Manufacturing and Study of Mechanical Properties, Structure and Compatibility with Biological Objects of Plates and Wire from New Ti-25Nb-13Ta-5Zr Alloy

A Ti–25Nb–13Ta–5Zr alloy was produced and studied in this work, and plates and wires were made from this alloy. It is shown that the Ti–25Nb–13Ta–5Zr alloy has the required mechanical properties and a β-crystal phase. Microstructures were present on the surface of the alloy with a height of several...

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Veröffentlicht in:Metals (Basel ) 2020-12, Vol.10 (12), p.1584
Hauptverfasser: Gudkov, Sergey V., Simakin, Alexander V., Sevostyanov, Mikhail A., Konushkin, Sergey V., Losertová, Monika, Ivannikov, Alexander Yu, Kolmakov, Alexey G., Izmailov, Andrey Yu
Format: Artikel
Sprache:eng
Schlagworte:
Biocompatibility
Bones
Chemical elements
Corrosion resistance
Cultivation
Manufacturing
mechanical characteristics
Mechanical properties
Medicine
Metallurgy
Metals
Morphology
Nickel titanides
Plates
Proteins
Shape memory alloys
structural characteristics
Surgical implants
Titanium alloys
Ti–Nb–Ta–Zr alloys
Transplants & implants
Wire
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Zusammenfassung:A Ti–25Nb–13Ta–5Zr alloy was produced and studied in this work, and plates and wires were made from this alloy. It is shown that the Ti–25Nb–13Ta–5Zr alloy has the required mechanical properties and a β-crystal phase. Microstructures were present on the surface of the alloy with a height of several hundred nm, located at a distance of 1.5–2 μm from each other. Ti–25Nb–13Ta–5Zr was superior to nitinol in terms of the formation of long-living reactive protein species and the generation of reactive oxygen species. Cell cultivation on Ti–25Nb–13Ta–5Zr alloy surfaces revealed a significant mitotic index (2%) and a small number of nonviable cells (
ISSN:2075-4701
2075-4701
DOI:10.3390/met10121584