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Meeting	MS&T21: Materials Science & Technology
Symposium	Additive Manufacturing of Ceramic-based Materials: Process Development, Materials, Process Optimization and Applications
Presentation Title	Additively Manufactured Carbon/Carbon Composites via Direct Ink Writing of Phenolic Resin Precursors
Author(s)	Caitlyn Clarkson, Connor Wyckoff, William Costakis, Matthew B Dickerson, Hilmar Koerner
On-Site Speaker (Planned)	Caitlyn Clarkson
Abstract Scope	Additive manufacturing (AM) offers key benefits to manufacturing: freedom of design, reduced material waste, and rapid prototyping, to name a few. However, few AM methods have been investigated for the creation of Carbon/Carbon (C/C) composites, which are well known for having excellent high temperature properties. A direct ink writing (DIW) method, one of many established AM processes, is presented for creating C/C composite structures from liquid phenolic resin inks. A low molecular weight gelator, which self-assembles in solution, was used to modify the ink rheology and carbon fiber content was varied for its impact on the mechanical properties. This work examined the properties of the inks leading to the best prints as well as the properties of the cured composite (carbon-conversion, carbon fiber orientation, and mechanical performance).

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

3D Printed Ceramic Acoustic Liners for Aircraft Noise Reduction

3D Printing of Nd:YAG Laser Ceramics through Lithography-based Light Projection

A Review of Extrusion-based AM via Robocasting

Additive Manufacturing of Ceramics for Aerospace Applications

Additive Manufacturing of Yttrium-stabilized Zirconia Architectures with Stretch-dominated Mechanical Properties

Additively Manufactured Carbon/Carbon Composites via Direct Ink Writing of Phenolic Resin Precursors

Binder-free Additive Manufacturing of Ceramics Using Hydrothermal-assisted Jet Fusion

Bulk Ferroelectric Metamaterial with Giant Piezoelectric Coefficients and Biomimetic Mechanical Property from Additive Manufacturing

Characterization of Anisotropic Structure of Additive Manufactured Ceramics

Direct-Ink-Writing and Cold-Sintering of ZnO Ceramics

Direct-write 3D Printing of Electrodes for High Power Density Batteries

Direct-writing by Micro Cold Spray of Yttria (Y2O3) Films

Effect of Particle Morphology and Green Part Density on Microstructure Evolution and Mechanical Properties of Sintered Alumina Fabricated via Ceramic Fused Filament Fabrication (CF3)

Enhanced Piezocomposite Transducers with 3D Printed Piezoelectric PZT

Examining the Changes in Micro-mechanical Properties of 3D Printed Cement Paste Using Grid Nanoindentation Coupled with SEM/EDS

Highly Loaded Aqueous Silicon Carbide Suspensions for Direct Ink Writing

Improving Ceramic Additive Manufacturing via Machine Learning-enabled Closed-Loop Control

Machine-learning-based Microstructure-property Prediction Enabled by High-throughput Ceramic Sample-array Preparation Using Integrated Additive/Subtractive Manufacturing

Mechanical Properties and Ionic Conductivity of Li₂O-Al₂O₃-TiO₂-P₂O₅ Prepared Using Laser Powder Bed Fusion

Mesoscale Modeling of Sintering Kinetics in Direct Ink Write Additive Manufacturing

Micro-cold Spray: Influence of SiC Nanoparticle Impact Angle on Deformation Behavior

Multifunctional Artificial Artery from Direct 3D Printing with Built-in Ferroelectricity and Tissue-Matching Modulus

Now On-Demand Only - Extrusion-based Additive Manufacturing of Silicon Carbide

Now On-Demand Only - Out of the Lab: 3D Printing on Non-ideal Surfaces

Properties of LiNbO3 Films Deposited by Micro-Cold Spray at Varying Angles of Impact

Stereolithography Printing of Technical Ceramics and Its Applications

Structure and High Temperature Mechanics of Binder Jet 3D Printed Ceramic Compacts Treated with Reactive Precursors

The Influence of Print Layer Orientation on Silicon Carbide Formed via Direct Ink Writing

The Influence of Processing on the Mechanical Properties of Additively Manufactured Ceramic Matrix Composites

Towards Direct Additive Manufacturing of Ceramics by Selective Laser Flash Sintering

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