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Effects of design and manufacturing deviations on compressive properties of glass sponge lattice structures manufactured by selective laser melting

Meng He, Lei Yang, Chao Zhao, Ronghong Zhang, Guangchao Han, Liang Hao

2024Materials & Design23 citationsDOIOpen Access PDF

Abstract

Bio-inspiration offers researchers innovative perspectives and methodologies, stimulating the advancement of high-performance, high-durability, and added-value materials, structures, and products. Inspired by the lightweight, high-strength, and highly stable glass sponges (GSs), five types of glass sponge lattice structures (GSLSs) were successfully designed and manufactured by selective laser melting (SLM) with Ti6Al4V. By conducting a comparative analysis of unit cell design and manufacturing deviations, we assess their impact on the compressive properties of GSLSs. Notably, the original GSLS with circle-/grid-like heterogeneous geometries exhibits outstanding overall compression performance, including stability, stress dispersion and unique cell-by-cell and layer-by-layer fracture mechanisms among GSLSs, which are attributable to their reinforced diagonal struts and heterogeneous unit cells. Hence, three strategies for unit cell design and optimization were proposed. These discoveries guide the future design and optimization of lattice structures (LSs) and offer potential applications for GSLSs in aerospace, biomedicine, automobiles, architecture, and wearable products.

Topics & Concepts

Materials scienceSelective laser meltingSpongeLattice (music)Composite materialCompressive strengthLaserMetallurgyOpticsMicrostructurePhysicsAcousticsBotanyBiologyLaser Material Processing TechniquesAdditive Manufacturing and 3D Printing Technologies3D Surveying and Cultural Heritage
Effects of design and manufacturing deviations on compressive properties of glass sponge lattice structures manufactured by selective laser melting | Litcius