Abstract The use of Laser Powder Bed Fusion (LPBF) in fabricating TiNi-based lattices enables tailoring the mechanical and physical properties of the structure, in addition to the functionality associated with… Click to show full abstract
Abstract The use of Laser Powder Bed Fusion (LPBF) in fabricating TiNi-based lattices enables tailoring the mechanical and physical properties of the structure, in addition to the functionality associated with the shape-memory effect. In this work, TiNi lattice structures were fabricated using LPBF, following an optimisation study for LPBF parameters investigating the geometrical integrity of the lattices, microstructural evolution, and phase transformation behaviour. A process map for TiNi lattices was constructed to visualise the influence of LPBF parameters on the build density, elemental evaporation, and impurity pick-up. The optimum LPBF processing window was found to be ∼60–90 J/mm3 volumetric energy density, achieving >99% relative density. Optimisation of the geometrical integrity of the LPBF-fabricated lattices, including the pore and strut sizes, was performed by considering the influence of the laser track width (LTW), beam compensation (BC), and contour distance (CD). As a result, when CD-BC = LTW/2, the deviation in strut size from the target design size was reduced to
               
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