Litcius/Paper detail

3D printing of multi-scalable structures via high penetration near-infrared photopolymerization

Junzhe Zhu, Qiang Zhang, Tianqing Yang, Yu Liu, Ren Liu

2020Nature Communications191 citationsDOIOpen Access PDF

Abstract

3D printing consisted of in-situ UV-curing module can build complex 3D structures, in which direct ink writing can handle versatile materials. However, UV-based direct ink writing (DIW) is facing a trade-off between required curing intensity and effectiveness range, and it cannot implement multiscale parallelization at ease. We overcome these difficulties by ink design and introducing near-infrared (NIR) laser assisted module, and this increases the scalability of direct ink writing to solidify the deposited filament with diameter up to 4 mm, which is much beyond any of existing UV-assisted DIW. The NIR effectiveness range can expand to tens of centimeters and deliver the embedded writing capability. We also demonstrate its parallel manufacturing capability for simultaneous curing of multi-color filaments and freestanding objects. The strategy owns further advantages to be integrated with other types of ink-based 3D printing technologies for extensive applications.

Topics & Concepts

Inkwell3D printingScalabilityMaterials scienceCuring (chemistry)PhotopolymerComputer scienceNanotechnologyPenetration (warfare)InfraredOptoelectronicsPolymerComposite materialPolymerizationOpticsDatabaseOperations researchPhysicsEngineeringAdditive Manufacturing and 3D Printing TechnologiesPhotopolymerization techniques and applicationsInteractive and Immersive Displays