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Meeting MS&T22: Materials Science & Technology
Symposium Additive Manufacturing of Ceramic-based Materials: Process Development, Materials, Process Optimization and Applications
Presentation Title Ceramic Additive Manufacturing for Innovative Zirconia-based Material
Author(s) Richard Gaignon, Helen Reveron, Sylvain Fournier, Guilhem Baeza, Jérôme Chevalier, Rouslan Svintsitski
On-Site Speaker (Planned) Rouslan Svintsitski
Abstract Scope High accuracy SLA 3D printing technology associated to last performing materials open today new opportunities on the technical ceramics market. Ceria-stabilized zirconia-based composites are currently intensively studied for their revolutionary characteristics: excellent mechanical resistance, plastic deformation before rupture, high Weibull modulus. Stereolitography shaping process on a new zirconia-based material with unique properties is explored. A slurry adapted to the Ceramaker process was formulated. 3D printing parameters (laser thickness, lasing power, etc..) were studied to observe their influences on green and sintered parts. Microstructures and mechanical properties were evaluated according to different sintering cycles. 3DCERAM has demonstrated the possibility to formulate and print this new ceramic composite material using its 3D SLA technology. Different thermal treatments allowed to reach densification and optimized mechanical properties. 3D shaping process generates a waited layered architecture of the parts but seems also to have an important influence on the original material microstructure.

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

A-13: Evaluation of Reliability of Using Combined Rheological Methods for the Development of Ceramic Materials for 3D Printing
A-14: Nanomechanical Characterization of 3D Printed Ceramics
A-15: Rheological Study of 3D Printable All-inorganic Thermoelectric Inks for Direct Writing of Micro-thermoelectric Generator
A Study of Lithography-Based Additive Manufacturing of Ceria Ceramics
Additive Manufacturing of Alumina Toughened Zirconia and Zirconia Toughened Alumina
Additive Manufacturing of Mullite Ceramic by Digital Light Processing
Advanced Manufacturing of Controlled SOFC Electrolyte and Electrode Microstructures through Aerosol Deposition
Bonding Mechanisms in Indirect Selective Laser Sintering
Brittle Particle Cold Spray Technology
Ceramic 3D Printing for Investment Casting
Ceramic Additive Manufacturing for Innovative Zirconia-based Material
Direct Ink Writing of Nanoscale Feature Ceramics via Preceramic Polymer-block Copolymer Inks
Effects of Bimodal Particle Size Distribution on Mechanical and Thermal Properties of Densified SiC-Si Composites from Binder Jetting
Exploration of the Underlying Space in Microscopic Images via Deep Learning for Additively Manufactured Piezoceramics
Fabrication of Powder Components with Cooling Channels by Spark Plasma Sintering and Additive Manufacturing
Influence of Laser Processing Parameters on Thermoelectric and Microstructural Properties of Bi2Te3
Mass Customization, Moving Forwards with Additive Manufacturing
Micro-Cold Spray: Effect of Particle Impact Velocity on SiC Film Morphology
Modeling and Monitoring of Thermal Accumulation During Laser Powder Bed Fusion of Cemented Carbides
Multi-material Printing of Reaction Bonded Carbides by Robocasting
Phase-field Modeling of Co-Sintering of Ceramic Electrolyte/Electrode for All Solid-State Li-ion Batteries
Production of 3D Printed Electrodes for Batteries
Rapid Three-dimensional Printing of High-resolution Piezoelectric Structures Using Micro-CLIP
SLA-based Additive Manufacturing of 3D Structures with Surface Activated Silicone Carbide-polymer Composite
Transparent Alumina Fabricated by Energy Efficient Spark Plasma Sintering

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