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Development of a Multi-Material Stereolithography 3D Printing Device

Bilal Khatri, Marco Frey, Ahmed Raouf Fahmy, Marc-Vincent Scharla, Thomas Hanemann

2020Micromachines62 citationsDOIOpen Access PDF

Abstract

Additive manufacturing, or nowadays more popularly entitled as 3D printing, enables a fast realization of polymer, metal, ceramic or composite devices, which often cannot be fabricated with conventional methods. One critical issue for a continuation of this success story is the generation of multi-material devices. Whilst in fused filament fabrication or 3D InkJet printing, commercial solutions have been realized, in stereolithography only very few attempts have been seen. In this work, a comprehensive approach, covering the construction, material development, software control and multi-material printing is presented for the fabrication of structural details in the micrometer range. The work concludes with a critical evaluation and possible improvements.

Topics & Concepts

Stereolithography3D printingFabricationCeramicRealization (probability)Materials scienceFused filament fabricationMechanical engineeringMicrometerEngineering drawingNanotechnologyComputer scienceEngineeringComposite materialMedicineMathematicsPathologyStatisticsAlternative medicineAdditive Manufacturing and 3D Printing TechnologiesInnovations in Concrete and Construction Materials3D Printing in Biomedical Research
Development of a Multi-Material Stereolithography 3D Printing Device | Litcius