Improving the property profile of a bioresorbable Mg-Y-Nd-Zr alloy by deformation treatments

The effect of three deformation methods (equal channel angular pressing (ECAP), multiaxial deformation (MAD), and rotary swaging (RS)) on the structure, texture, mechanical and corrosion properties of magnesium alloy WE43 (Mg-3.56%Y-2.20%Nd-0.47%Zr) was studied. Microstructure, texture, and mechanic...

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Published in:Materialia 2020-09, Vol.13, p.100841, Article 100841
Main Authors: Martynenko, Natalia, Lukyanova, Elena, Anisimova, Natalia, Kiselevskiy, Mikhail, Serebryany, Vladimir, Yurchenko, Nikita, Raab, Georgy, Birbilis, Nick, Salishchev, Gennady, Dobatkin, Sergey, Estrin, Yuri
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Language:English
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Biocompatibility in vitro
Corrosion resistance
Magnesium alloys
Mechanical properties
Ultrafine grained structure
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cited_by cdi_FETCH-LOGICAL-c344t-109396caebc34c05d8b94c800083c4dc682f1908cbd8fd040d33889195ebfb683
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container_title Materialia
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creator Martynenko, Natalia
Lukyanova, Elena
Anisimova, Natalia
Kiselevskiy, Mikhail
Serebryany, Vladimir
Yurchenko, Nikita
Raab, Georgy
Birbilis, Nick
Salishchev, Gennady
Dobatkin, Sergey
Estrin, Yuri
description The effect of three deformation methods (equal channel angular pressing (ECAP), multiaxial deformation (MAD), and rotary swaging (RS)) on the structure, texture, mechanical and corrosion properties of magnesium alloy WE43 (Mg-3.56%Y-2.20%Nd-0.47%Zr) was studied. Microstructure, texture, and mechanical properties were investigated by optical and transmission electron microscopy, X-ray diffraction, and tensile testing, respectively. Corrosion resistance was evaluated by a combination of mass loss and hydrogen evolution measurements, as well as electrochemical testing. To assess the effect of the various deformation methods on the biocompatibility in vitro of the alloy, hemolysis and cytotoxicity on peripheral blood cells and proliferation of multipotent mesenchymal stromal cells were evaluated. It tests showed that grain refinement in the range of ~ 0.6 - 1 μm achieved by mechanical processing is responsible for a significant improvement of mechanical properties. A notable decrease in the corrosion rate was observed after ECAP and MAD processing. MAD and ECAP enhanced alloy biocompatibility in all in vitro tests, while the effect of RS was less significant. In summary, the results obtained demonstrate that not only do the deformation methods employed improve the mechanical properties of alloy WE43, but they also increase its corrosion resistance and biocompatibility in vitro. [Display omitted]
doi_str_mv 10.1016/j.mtla.2020.100841
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Microstructure, texture, and mechanical properties were investigated by optical and transmission electron microscopy, X-ray diffraction, and tensile testing, respectively. Corrosion resistance was evaluated by a combination of mass loss and hydrogen evolution measurements, as well as electrochemical testing. To assess the effect of the various deformation methods on the biocompatibility in vitro of the alloy, hemolysis and cytotoxicity on peripheral blood cells and proliferation of multipotent mesenchymal stromal cells were evaluated. It tests showed that grain refinement in the range of ~ 0.6 - 1 μm achieved by mechanical processing is responsible for a significant improvement of mechanical properties. A notable decrease in the corrosion rate was observed after ECAP and MAD processing. MAD and ECAP enhanced alloy biocompatibility in all in vitro tests, while the effect of RS was less significant. In summary, the results obtained demonstrate that not only do the deformation methods employed improve the mechanical properties of alloy WE43, but they also increase its corrosion resistance and biocompatibility in vitro. 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Microstructure, texture, and mechanical properties were investigated by optical and transmission electron microscopy, X-ray diffraction, and tensile testing, respectively. Corrosion resistance was evaluated by a combination of mass loss and hydrogen evolution measurements, as well as electrochemical testing. To assess the effect of the various deformation methods on the biocompatibility in vitro of the alloy, hemolysis and cytotoxicity on peripheral blood cells and proliferation of multipotent mesenchymal stromal cells were evaluated. It tests showed that grain refinement in the range of ~ 0.6 - 1 μm achieved by mechanical processing is responsible for a significant improvement of mechanical properties. A notable decrease in the corrosion rate was observed after ECAP and MAD processing. MAD and ECAP enhanced alloy biocompatibility in all in vitro tests, while the effect of RS was less significant. In summary, the results obtained demonstrate that not only do the deformation methods employed improve the mechanical properties of alloy WE43, but they also increase its corrosion resistance and biocompatibility in vitro. 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subjects Biocompatibility in vitro
Corrosion resistance
Magnesium alloys
Mechanical properties
Ultrafine grained structure
title Improving the property profile of a bioresorbable Mg-Y-Nd-Zr alloy by deformation treatments
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