Capillary imbibition depth in particle-bed 3D printing-Physical frame and one-dimensional experiments

This paper deals with the control of the net geometry of a printed object in the case of powder-bed or particle bed binding technologies. We first measure and compare water penetration in one-dimensional experiments for various powder-beds. Our results, despite the simplicity of the experimental set-up, show a feature that has not been reported in literature so far, namely the fact that water penetration depth is not finite but is fully uncontrolled on longer time scales. We discuss the physical origin of this feature and the reasons why it is hidden by other aspects in most papers or applications. We finally show that water penetration depth can be controlled by a dispersed organic water thickener. Our results suggest the formation of a non-Newtonian fluid between the binder grains, which allows, in turn, for the control of the naturally uncontrolled capillary-driven water penetration in the powder-bed.

Automated summary

This paper focuses on controlling the net geometry of a printed object in powder-bed or particle bed binding technologies. The authors conducted experiments to measure and compare water penetration in different powder-beds, and discovered that the water penetration depth is fully uncontrolled on longer time scales, which has not been reported in literature before. They discussed the physical origin of this feature and how it is hidden by other factors. Moreover, they demonstrated that water penetration depth can be controlled by using a dispersed organic water thickener.