Litcius/Paper detail

Insights into drop-on-demand metal additive manufacturing through an integrated experimental and computational study

Negar Gilani, Nesma T. Aboulkhair, Marco Simonelli, Mark East, Ian Ashcroft, Richard Hague

2021Additive manufacturing40 citationsDOIOpen Access PDF

Abstract

Drop-on-demand metal jetting is a recent additive manufacturing technology opening new opportunities for the fabrication of complex single and multi-metal components. MetalJet, the Océ developed technique used in this study, has the capacity to produce molten micro-droplets (60–80 µm) at temperatures up to 2000 °C to form single and multi-material objects. Applications for this technology include flexible circuits, advanced electronic components and biotechnologies. However, full exploitation of this technology is impeded by a lack of understanding of various aspects of the process, including droplet bonding and interface formation, residual stress development and the evolution of microstructure. This paper uses an integrated numerical and experimental approach to provide insights into these research questions. Thermal models were used to investigate droplet-to-substrate adhesion and explain the experimentally-observed morphology of droplets. Thermo-mechanical modelling was used to investigate residual stress development and its role in the observed droplet warping and delamination. The knowledge obtained from this study can be used to underpin the development of functional multi-material printing.

Topics & Concepts

Materials scienceResidual stressDrop (telecommunication)FabricationMicrostructureDelamination (geology)Image warpingNanotechnologyOn demandMechanical engineeringThermalDrop impactComposite materialProcess engineeringComputer scienceEngineeringWettingSubductionArtificial intelligenceTectonicsBiologyPathologyMeteorologyMultimediaMedicineAlternative medicinePhysicsPaleontologyAdditive Manufacturing and 3D Printing TechnologiesFluid Dynamics and Heat TransferAdditive Manufacturing Materials and Processes