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Wits, Wessel
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Topics
Publications (15/15 displayed)
- 2023Fatigue prediction and life assessment method for metal laser powder bed fusion partscitations
- 2021Graded structures by multi-material mixing in laser powder bed fusioncitations
- 2020Porous materials additively manufactured at low energycitations
- 2020Pulsed mode selective laser melting of porous structures: Structural and thermophysical characterizationcitations
- 2019Experimental investigation of a flat-plate closed-loop pulsating heat pipecitations
- 2018Method to determine thermoelastic material properties of constituent and copper-patterned layers of multilayer printed circuit boardscitations
- 2017An investigation of porous structure characteristics of heat pipes made by additive manufacturingcitations
- 2017Multiscale modelling of agglomeration
- 2017An experimental study towards the practical application of closed-loop flat-plate pulsating heat pipescitations
- 2015Investigation on the Accuracy of CT Porosity Analysis of Additive Manufactured Metallic Parts
- 2015Single scan vector prediction in selective laser meltingcitations
- 2015Laser beam welding of titanium additive manufactured partscitations
- 2014System for fast and accurate filling of a two-phase cooling device, notably a heat pipe, adapted for use in an automated process
- 2013System for fast and accurate filling of a two-phase cooling device, notably a heat pipe, adapted for use in an automated process
- 2010Inkjet Printing of 3D Metallic Silver Complex Microstructures
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document
Inkjet Printing of 3D Metallic Silver Complex Microstructures
Abstract
To broaden the scope of inkjet printing, this paper focuses on printing of an organic silver complex ink on glass substrates towards the fabrication of metallic 3D microstructures. The droplet formation sequence of the inkjet printer is optimised to print continuous layers of metal. A brief discussion on orientation trials, aimed at optimising the print parameters, is followed by two different methodologies of printing 3D microstructures: wet-in-wet and wet-in-dry. The surface topography of the end product and the possibility to stack layer-upon-layer using these two methodologies are the main criteria investigated in this paper.