Hierarchical 3D Printed Porous Silicones with Porosity Derived from Printed Architecture and Silicone-Shell Microballoons

Hierarchical 3D Printed Porous Silicones with Porosity Derived from Printed Architecture and Silicone-Shell Microballoons

A method is reported to prepare siloxane microballoons that can be loaded into a direct ink write siloxane ink for 3D printing. The resulting structure is subjected to a solvent removal and supercritical drying process to provide a final printed siloxane having both macroscopic and microscopic poros...

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Veröffentlicht in:Additive manufacturing 2022-07, Vol.55, p.102837, Article 102837
Hauptverfasser: Loeb, Colin K., Nguyen, Du T., Bryson, Taylor M., Duoss, Eric B., Wilson, Thomas S., Lenhardt, Jeremy M.
Format: Artikel
Sprache:eng
Schlagworte:
3D Printing
Core-shell
Direct ink write
Hierarchical porosity
Hollow microballoon
MATERIALS SCIENCE
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Zusammenfassung:A method is reported to prepare siloxane microballoons that can be loaded into a direct ink write siloxane ink for 3D printing. The resulting structure is subjected to a solvent removal and supercritical drying process to provide a final printed siloxane having both macroscopic and microscopic porosity. Core-shell particles are generated by an emulsion template and phase separation process. Intra-strand closed-cell porosities can be achieved between 10 and 40 vol% thus facilitating additional compressive strain before lockup. Short term compression set testing highlights the excellent shape retention properties of these elastomers, which have less than 8% relative compression set under load.
ISSN:2214-8604
2214-7810
DOI:10.1016/j.addma.2022.102837