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Meeting	MS&T22: Materials Science & Technology
Symposium	Additive Manufacturing of High and Ultra-high Temperature Ceramics and Composites: Processing, Characterization and Testing
Presentation Title	Oxidation Behavior of Additively Manufactured SiC-SiOC Composites
Author(s)	Mackenzie Ridley, Trevor Aguirre, Corson Cramer
On-Site Speaker (Planned)	Mackenzie Ridley
Abstract Scope	Additively manufactured (AM) ceramics can support the development of components with complex geometries for a variety of high-temperature applications. In this work, silicon-based polymer infiltration and pyrolysis cycles were used to develop SiC-SiOC composites. The steam and air oxidation behaviors were studied up to 1500°C to determine the effectiveness of SiOC on oxidation resistance. Oxidation rates, reaction mechanisms, and effects of processing conditions on material performance will be discussed. This work is supported by the United States Department of Energy, Office of Energy Efficiency and Renewable Energy, Advanced Manufacturing Office.

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Additive Manufacturing of Chopped Fiber Ultra-High Temperature Ceramic Composites

AM of SiC:SiC Composites via Robocasting

Anisotropic Microstructures in Platelet-Seeded Silicon Carbide obtained via Direct Ink Writing

Considerations for Additive Manufacturing of Ultra-high Temperature Ceramic Composites Using Preceramic Polymers

Evaluating Extrusion Deposited Additively Manufactured Fiber-reinforced Thermoplastic Polymers as Carbon/Carbon Preforms

Heterogeneous Lattice Structure Ceramic-Refractory Metal Materials Created via Additive Manufacturing

High-temperature Performance of LCVD SiC Fiber-Reinforced CMCs

In-Bath 3D Printing of Preceramic Polymers

Laser-induced Slip Casting for Additive Manufacturing of Large Ceramic Components

Micro and Nanostructured Compositing Approaches to Green Body Strengthening of Polymer-Derived UHTC

Optimizing Functionally Graded ZrB₂-Mo Components by Ceramic On-Demand Extrusion (CODE)

Oxidation Behavior of Additively Manufactured SiC-SiOC Composites

Strategies for Printing Fibers and Post-processing for Ceramic Matrix Composites (CMCs)

Structural Characterization of the 3D Printed Ceramic Composite Materials

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