This work introduces a computational method for designing ceramic scaffolds fabricated via direct ink writing (diw) for maximum bone growth, whereby the deposited rods are curvilinear. In this work, we present a computational procedure to design ceramic bone scaffolds to provide adequate mechanical support and foster bone healing The scaffolds considered in our study consist of a lattice of curved rods fabricated via direct ink writing. Now, additive manufacturing techniques provide a solution for the fabrication of porous scaffolds with specific geometrical shapes and complex structures The goal of this study was to. In this study, artificial bone scaffold design and manufacturing technologies developed with am technology have been discussed.
Computational design of additively manufactured curvilinear scaffolds for bone repair with analytical sensitivities david o Aboutaleb, amy wagoner johnson, julian a
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