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Title
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The microstructure-mechanical property relationships in Ti–Cu alloys for biomedical applications: A review
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Type
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JournalPaper
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Keywords
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Ti–Cu alloys, Biomedical implants Microstructure Mechanical properties Biocompatibility
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Abstract
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In this extensive review, the role of titanium-copper (Ti-Cu) alloys in the biomedical sector is thoroughly examined especially for microstructural and mechanical properties useful to implant applications. Current processing methodologies, from powder metallurgy to additive manufacturing, demonstrates the process-dependent microstructural outcomes. The diversely derived microstructures are important for the mechanical resilience of Ti-Cu alloys under simulated physiological stresses. Analyses on whether these biomaterials could meet rigorous biomechanical requisites in load-bearing capacities, present both challenges and promising future exploration. This review shows the promise of optimized Ti-Cu alloy, fine-tuned by advanced manufacturing technologies aided by computational modeling. The pivotal aim of most metallic implants is to combine biomechanical compatibility and functional longevity in human …
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Researchers
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(Not In First Six Researchers), Mehran Nezakati (Not In First Six Researchers), Omid Elahi (Not In First Six Researchers), Helia Damghani (Not In First Six Researchers), Ali Mirzamohammadi (Not In First Six Researchers), (Fifth Researcher), (Fourth Researcher), (Third Researcher), Mohammad Reza Akbarpour (Second Researcher), (First Researcher)
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