posted on 2021-02-02, 16:14authored byRahul Karyappa, Michinao Hashimoto
Embedded 3D printing has demonstrated
fabricating freeform structures
of curable polymer resins in microparticulate hydrogels. This method
is, however, not compatible with thermoplastics extruded at high temperature.
This communication presents a unique approach to 3D-print thermoplastics
in embedding media, termed freeform polymer precipitation (FPP). FPP
is based on spatially controlled immersion precipitation of polymer
inks patterned in microparticulate gels for various thermoplastics
with additives. The embedding media offer unique dual functions: Bingham
plastic to maintain printed structures and nonsolvent for in situ precipitation of polymer inks. Polymer inks with
a wide range of vapor pressure (0.04–60 kPa) and viscosity
(0.1–1000 Pa·s) were demonstrated for FPP. Using acrylonitrile
butadiene styrene dissolved in acetone (20–60 w/w %) as a model
ink, we identified the printing conditions to ensure vertical and
lateral attachments of printed inks. The fabricated 3D objects were
porous because of rapid phase separation due to the nonsolvent, which
was controlled by the concentration of the polymer and the porogens
in the inks. FPP offers a simple route to fabricate 3D freeform structures
of thermoplastics with controlled internal porosity and should serve
as a useful toolkit to 3D-print multi-functional materials such as
polymer nanocomposites.