Penetrated surface characteristics of cement - mixed sand in powder bed 3D printing

Powder bed 3D printing is an additive manufacturing process that combines powder particles by selectively depositing a liquid activator on a powder bed. Sand molds for high-resolution casting can be realized as a high-quality green body via powder bed 3D printing. In this study, we investigated the effect of vertical penetration of aqueous droplets on the quality of the green body formed from a cement-mixed sand powder. The cement was hydrated by aqueous droplets and acted as a binder between the sand particles. The penetration ratio of the prepared powders was calculated from the penetration depth and spread diameter. Evidently, the penetration ratio and penetration resolution determined the strength and surface resolution of the green body. The results showed that an increase in the silica sand grain size led to a desirable penetration resolution with a relatively high green body strength at the same cement content. Additionally, the green body made from the sand with a particle size of 70 mu m showed a relatively high green body strength and an excellent green body surface resolution even at 5% cement content, and it was determined that the green body strength and resolution depend on the penetration pattern.

Automated summary

Vertically penetrating aqueous droplets can affect the quality of green bodies in powder bed 3D printing. Increasing the size of silica sand grains can lead to better penetration resolution and strength. Green bodies made from 70 µm particle size sand show relatively high strength and surface resolution even at 5% cement content, indicating that strength and resolution are dependent on the penetration pattern.