Numerical techniques used in the simulations of microdroplet deposition processes applied to additive manufacturing

Wilmer E. Cumbicus

Numerical techniques used in the simulations of microdroplet deposition processes applied to additive manufacturing

Wilmer E. Cumbicus ¹

1 Universidad Politécnica de Cartagena

Universidad Politécnica de Cartagena

Cartagena, España

ROR https://ror.org/02k5kx966

Konferenzberichte:

2nd International Congress on Scientific Advances (ICONSAD’22)

ISBN: 978-605-73639-5-4

Datum der Publikation: 2022

Art: Konferenz-Beitrag

GOOGLE SCHOLAR

Zusammenfassung

Microdroplet deposition processes typically involve incompressible liquid-gas (air) flow with a free surface. However, as the liquid-air density ratio is very high and the ejection period of the drops is usually short, the effect of the viscous forces of the air on the liquid can be neglected. Furthermore, it is also reasonable to ignore the effect of inertia and viscous vapor stresses of the liquid being confined in the firing chamber to a scale of a few microns. Consequently, the Navier Stokes (NS) equations can be solved considering only the liquid phase.

Numerical techniques used in the simulations of microdroplet deposition processes applied to additive manufacturing

Universidad Politécnica de Cartagena

Zusammenfassung