Nonplanar 3D Printing of Epoxy Using Freeform Reversible Embedding
Abstract: Thermally cured thermoset polymers such as epoxies are widely used in industry and manufacturing due to their thermal, chemical, and electrical resistance, and mechanical strength and toughness. However, it can be challenging to 3D print thermally cured thermosets without rheological modification because they tend to flow and not hold their shape when extruded due to cure times of minutes to hours. 3D printing inside a support bath addresses this by allowing the liquid polymer to be held in place until the thermoset is fully cured and expands the structures that can be printed as extrusion is not limited to layer‐by‐layer. Here, the use of Freeform Reversible Embedding (FRE) to 3D print off‐the‐shelf thermoset epoxy into lattice structures using nonplanar extrusion is reported. To do this, the authors investigate how extrusion direction in 3D space impacts epoxy filament morphology and fusion at filament intersections. Furthermore, the advantages of this approach are shown by using nonplanar printing to produce lattice geometries that show ≈ four times greater specific modulus compared with lattice structures printed using other materials and printing techniques.
- Location
-
Deutsche Nationalbibliothek Frankfurt am Main
- Extent
-
Online-Ressource
- Language
-
Englisch
- Bibliographic citation
-
Nonplanar 3D Printing of Epoxy Using Freeform Reversible Embedding ; day:27 ; month:01 ; year:2023 ; extent:10
Advanced Materials Technologies ; (27.01.2023) (gesamt 10)
- Creator
-
Arun, Neeha Dev
Yang, Humphrey
Yao, Lining
Feinberg, Adam W.
- DOI
-
10.1002/admt.202201542
- URN
-
urn:nbn:de:101:1-2023012814101519274004
- Rights
-
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
-
15.08.2025, 7:29 AM CEST
Data provider
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Associated
- Arun, Neeha Dev
- Yang, Humphrey
- Yao, Lining
- Feinberg, Adam W.
Other Objects (12)
Hygrothermal Aging of Amine Epoxy: Reversible Static and Fatigue Properties
Non-planar elliptic vertex
Non-planar BCFW Grassmannian geometries
Non-planar granular 3D printing
Evidence for a nonplanar amplituhedron
Non-planar on-shell diagrams
Retroreflex Ellipsometry for Nonplanar Surfaces
An improved reversible watermarking scheme using embedding optimization and quaternion moments
Study on the Difference of Collagen Fibre Structure Caused by Epoxy Resin Embedding
Correction: Non-planar granular 3D printing
Nonplanar Nanographene with 85 Fused Rings
Implications of nonplanar dual conformal symmetry
Hygrothermal Aging of Amine Epoxy: Reversible Static and Fatigue Properties
Non-planar elliptic vertex
Non-planar BCFW Grassmannian geometries
Non-planar granular 3D printing
Evidence for a nonplanar amplituhedron
Non-planar on-shell diagrams
Retroreflex Ellipsometry for Nonplanar Surfaces
An improved reversible watermarking scheme using embedding optimization and quaternion moments
Study on the Difference of Collagen Fibre Structure Caused by Epoxy Resin Embedding
Correction: Non-planar granular 3D printing
Nonplanar Nanographene with 85 Fused Rings
Implications of nonplanar dual conformal symmetry
Hygrothermal Aging of Amine Epoxy: Reversible Static and Fatigue Properties
Non-planar elliptic vertex
Non-planar BCFW Grassmannian geometries
Non-planar granular 3D printing
Evidence for a nonplanar amplituhedron
Non-planar on-shell diagrams
Retroreflex Ellipsometry for Nonplanar Surfaces
An improved reversible watermarking scheme using embedding optimization and quaternion moments
Study on the Difference of Collagen Fibre Structure Caused by Epoxy Resin Embedding
Correction: Non-planar granular 3D printing
Nonplanar Nanographene with 85 Fused Rings