Coupling AFCCX topology with volume fraction control to engineer electron beam melted high-performance lattice structures for potential orthopedic application
Pan Wu, Yu Guo, Liang‐Yu Chen, Zi-Han Ge, Zexin Wang, Chengliang Yang, Changshu Xiang, Lai‐Chang Zhang, Fengrui Li
Topics & Concepts
Materials scienceVolume fractionStiffnessLattice (music)Topology optimizationComposite materialDeformation (meteorology)Cathode rayCoupling (piping)Compressive strengthElastic modulusWork (physics)Finite element methodBeam (structure)Crystal structureModulusCompression (physics)Surface-area-to-volume ratioStructural engineeringTopology (electrical circuits)Young's modulusVolume (thermodynamics)PlanarRepresentative elementary volumeMaterial propertiesElasticity (physics)Specific strengthBearing capacityBulk modulusTimoshenko beam theoryElastic energyDiamond cubicCellular and Composite StructuresAdditive Manufacturing and 3D Printing TechnologiesBone Tissue Engineering Materials