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Anomalous compliance of interpenetrating-phase composite of Ti and Mg synthesized by liquid metal dealloying

I.V. Okulov, Jana Wilmers, Soo‐Hyun Joo, Swantje Bargmann, Hyoung Seop Kim, Hidemi Kato

2020Scripta Materialia56 citationsDOIOpen Access PDF

Abstract

Low modulus biomaterials are in focus as potential candidates for biomedical implants ensuring a fast healing of hard tissues. The close match between elastic properties of an implant material and bone are critical to eliminate stress-shielding effect. In this study, we synthesized a low modulus interpenetrating-phase composite of Ti and Mg by liquid metal dealloying. Its Young's modulus value is in the range of that found for human bone which allows for biomedical applications of this material. Unexpectedly, the Young's modulus value of the composite (17.6 GPa) is several times lower than that of each individual constituent phases, namely, Mg (45 GPa) and Ti (110 GPa). Using micromechanical modelling, it is demonstrated that the origin of the anomalously low modulus can be related to a weakened interface between the constituents.

Topics & Concepts

Materials scienceStress shieldingModulusComposite numberComposite materialElastic modulusPhase (matter)MetalLiquid metalImplantMetallurgySurgeryMedicineOrganic chemistryChemistryAluminum Alloys Composites PropertiesNanoporous metals and alloysMicrostructure and mechanical properties
Anomalous compliance of interpenetrating-phase composite of Ti and Mg synthesized by liquid metal dealloying | Litcius