the latest advances in different aspects of the design and manufacturing of additively manufactured metallic biomaterials are highlighted.After introducing metal AM processes,biocompatible metals adapted for integration with AM machines are presented.Then,we elaborate on the tools and approaches undertaken ...
In this review, the latest advances in different aspects of the design and manufacturing of additively manufactured metallic biomaterials are highlighted. After introducing metal AM processes, biocompatible metals adapted for integration with AM machines are presented. Then, we elaborate on the tools and...
Moreover, the elastic modulus and yield stress of the presented pentamode metamaterials were decoupled from their relative density, meaning that the metallic meta-biomaterials with independently tailored elastic and mass transport (permeability) properties could be designed for tissue regeneration purposes. ...
Mechanical performance of additively manufactured (AM) Ti6Al4V scaffolds has mostly been studied in uniaxial compression. However, in real-life applications, more complex load conditions occur. To address this, a novel sample geometry was designed, tested and analyzed in this work. The new scaffold...
A.A. Zadpoor Additively manufactured porous metallic biomaterials J. Mater. Chem. B (2019) Google Scholar [67] L. Séon, P. Lavalle, P. Schaaf, F. Boulmedais Polyelectrolyte multilayers: a versatile tool for preparing antimicrobial coatings Langmuir, 31 (47) (2015), pp. 12856-12872 Cross...
The use of cellular structures has led to unprecedented outcomes in various fields involving optical and mechanical cloaking, negative thermal expansion, and a negative Poisson’s ratio. The unique characteristics of periodic cellular structures primaril
Finally, the potential post-treatments applied to ameliorate the tribocorrosion resistance of AM-ed metallic biomaterials utilized in hip implants are classified and discussed.doi:10.1007/s40735-023-00783-4Mahmoud NaimA. AlhusseinM. ChemkhiSpringer International PublishingJournal of Bio- and Tribo-...
Topological design, permeability and mechanical behavior of additively manufactured functionally graded porous metallic biomaterialsBiomaterialFunctionally gradedAdditive manufacturingSelective laser meltingPermeabilityMechanical behaviorRecent advances in additive manufacturing (AM) have enabled the fabrication of ...
Furthermore, we used the finite element (FE) method to predict the mechanical properties of the porous metallic biomaterials. 2. Materials and methods 2.1. Additive manufacturing of scaffolds Porous scaffolds were additively manufactured using the selective laser melting (SLM) method (Layerwise NV, ...
One of the possibilities to “tune” the crystalline phase structure of the as-manufactured metallic components is by additional heat and pressure exposure46, combined with machining or other types of mechanical treatment. Each additional post-processing step adds to the cost of the final product, ...