Litcius/Paper detail

Mechanical and energy absorption properties of 3D-printed honeycomb structures with Voronoi tessellations

Abdel-Rahman Ahmed, E. Mahdi, Kas Oosterhuis, Aamir Dean, John‐John Cabibihan

2023Frontiers in Mechanical Engineering40 citationsDOIOpen Access PDF

Abstract

3D printing technology is the new frontier in building construction. It is especially useful for making small structures within a short period. Full construction, including interior partitions and exterior façades, can be achieved with this technology. This paper proposes a parametric Voronoi tessellations model for quickly generating and fabricating 3D-printed hexagonal honeycomb partitions for interior design. Comprehensive experimental testing was conducted to characterize the mechanical properties and investigate the energy absorption characteristics of the proposed 3D-printed hexagonal honeycomb while comparing it to alternative hexagonal honeycomb structures. The tests included tensile testing (ASTM-D638) of the printed Polylactic Acid (PLA) material, especially with the almost total absence of conducted research that reported mechanical properties for 3D printed material with low infill percentages such as 10%. In addition, an in-plane quasi-static axial compression testing of the lightweight honeycomb structures was also conducted on the printed structure with the same low infill percentage. Compared to non-Voronoi honeycomb structures, the Voronoi honeycomb resulted in superior mechanical and energy absorption properties with energy absorption values ranging from 350 to 435 J and crash force efficiency being 1.42 to 1.65.

Topics & Concepts

HoneycombVoronoi diagramHoneycomb structureMaterials scienceInfillComposite materialStructural engineeringAbsorption (acoustics)Ultimate tensile strengthGeometryEngineeringMathematicsAdditive Manufacturing and 3D Printing TechnologiesInnovations in Concrete and Construction MaterialsCellular and Composite Structures