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Tailoring mechanical properties of PμSL 3D-printed structures via size effect

Wenqiang Zhang, Haitao Ye, Xiaobin Feng, Wenzhao Zhou, Ke Cao, Maoyuan Li, Sufeng Fan, Yang Lü

2022International Journal of Extreme Manufacturing36 citationsDOIOpen Access PDF

Abstract

Abstract Projection micro stereolithography (P μ SL) has emerged as a powerful three-dimensional (3D) printing technique for manufacturing polymer structures with micron-scale high resolution at high printing speed, which enables the production of customized 3D microlattices with feature sizes down to several microns. However, the mechanical properties of as-printed polymers were not systemically studied at the relevant length scales, especially when the feature sizes step into micron/sub-micron level, limiting its reliable performance prediction in micro/nanolattice and other metamaterial applications. In this work, we demonstrate that P μ SL-printed microfibers could become stronger and significantly more ductile with reduced size ranging from 20 μ m to 60 μ m, showing an obvious size-dependent mechanical behavior, in which the size decreases to 20 μ m with a fracture strain up to ∼100% and fracture strength up to ∼100 MPa. Such size effect enables the tailoring of the material strength and stiffness of P μ SL-printed microlattices over a broad range, allowing to fabricate the microlattice metamaterials with desired/tunable mechanical properties for various structural and functional applications.

Topics & Concepts

StereolithographyMaterials science3D printingMetamaterialMicrofiberComposite materialPolymer3d printedInkwellNanotechnologyOptoelectronicsBiomedical engineeringMedicineAdditive Manufacturing and 3D Printing TechnologiesNanofabrication and Lithography TechniquesAdvanced Sensor and Energy Harvesting Materials
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