The Novel Hybrid Lattice Structure Approach Fabricated by Laser Powder Bed Fusion and Mechanical Properties Comparison
Künye
KHAN, Hamaid Mahmood, Cemal İrfan ÇALIŞKAN & Mustafa Enes BULDUK. "The Novel Hybrid Lattice Structure Approach Fabricated by Laser Powder Bed Fusion and Mechanical Properties Comparison." 3d Printing and Additıve Manufacturing, (2022).Özet
Aluminum-based cellular structures are gaining a huge traction in several applications, including lightweight
aircraft, military equipment, and heat exchangers. With additive manufacturing, the fabrication of complex
periodic cellular structures with any unit cell form, size, and volume fraction has become a lot easier, allowing
for more investment, research, and attention from both academia and industry. The aim of the research was to
assess the manufacturability and performance of AlSi10Mg periodic cellular structures generated using the laser
powder bed fusion process. Re-entrant and triply periodic and minimum surface (TPMS) gyroid cells were
hybridized into a single cellular structure having identical volume fraction. Because of distinct mechanical
properties of TPMS and re-entrant types, these cells were selected and assembled in various patterns to study
their manufacturability, deformation behavior, energy absorption, and compressive strength. This work demonstrates good geometric agreement between the manufactured hybrid lattice structures and computer-aided
design models. Hybridized structures with several repeated layers of TPMS gyroid and re-entrant cells can
result in superior compressive strength and energy absorption than those with only few large layers.