3D printing of soils is an emerging automation technology that has the potential to be used in a wide range of geotechnical applications. Considering this perspective, this study evaluates the capabilities of a 3D printer for soils to produce double-structured soil samples with target values of micro- and macro-porosities. Micro-porosity can be controlled by controlling the characteristics of the soil filament released by the printer, whereas macro-porosity can be regulated by choosing the geometry of superimposed filament layers. As a result, the procedure reported in this work suggests an automated alternative to the current practice where controlled-double-structured clayey soil samples are created acting on the water content and compaction load.
Starvaggi, M., Rosone, M., Ferrari, A. (2025). Creating Controlled-Double-Structured Soils Through 3D Printing. IOP CONFERENCE SERIES. EARTH AND ENVIRONMENTAL SCIENCE, 1480(1) [10.1088/1755-1315/1480/1/012010].
Creating Controlled-Double-Structured Soils Through 3D Printing
Starvaggi, M.
;Rosone, M.;Ferrari, A.
2025-01-01
Abstract
3D printing of soils is an emerging automation technology that has the potential to be used in a wide range of geotechnical applications. Considering this perspective, this study evaluates the capabilities of a 3D printer for soils to produce double-structured soil samples with target values of micro- and macro-porosities. Micro-porosity can be controlled by controlling the characteristics of the soil filament released by the printer, whereas macro-porosity can be regulated by choosing the geometry of superimposed filament layers. As a result, the procedure reported in this work suggests an automated alternative to the current practice where controlled-double-structured clayey soil samples are created acting on the water content and compaction load.
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