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Fluid Mechanics Challenges in Direct-Ink-Writing Additive Manufacturing

Alban Sauret, Tyler R. Ray, Brett G. Compton

2025Annual Review of Fluid Mechanics7 citationsDOIOpen Access PDF

Abstract

Direct-ink writing (DIW) has rapidly become a versatile 3D fabrication method due to its ability to deposit a wide range of complex fluids into customizable 3D geometries. This review highlights key fundamental fluid mechanics and soft matter challenges across the different stages of the DIW printing process. The rheology of fluids and suspensions governs the flow behavior through narrow nozzles, posing questions about extrudability, confined flow dynamics, and clogging mechanisms. Downstream, the formation and deposition of extruded filaments involve extensional flows and potential instabilities, while postdeposition dynamics introduces complexities related to yield stress and structural stability. These stages are inherently interdependent, as optimizing material composition without considering filament stability risks compromising the final structure. As DIW applications expand through advanced ink formulations, developing fundamental fluid mechanics frameworks is essential to replace trial-and-error approaches with predictive design methodologies to enable more precise control and improved reliability of the printing process.

Topics & Concepts

RheologyFluid mechanicsMechanical engineeringMaterials scienceComputer scienceFluid dynamicsFabricationFlow (mathematics)Deposition (geology)Extensional definition3D printingMechanicsComplex fluidNanotechnologyExtrusionFlow control (data)CloggingComputational fluid dynamicsSoft matterMaterial flowKey (lock)Stress (linguistics)Reliability (semiconductor)Additive Manufacturing and 3D Printing TechnologiesInnovations in Concrete and Construction MaterialsInjection Molding Process and Properties
Fluid Mechanics Challenges in Direct-Ink-Writing Additive Manufacturing | Litcius