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Meeting	MS&T22: Materials Science & Technology
Symposium	High Entropy Materials: Concentrated Solid Solutions, Intermetallics, Ceramics, Functional Materials and Beyond III
Presentation Title	Design of Multicomponent Rare-earth Sesquioxides for Thermal/Environmental Barrier Coatings
Author(s)	Kristyn D. Ardrey, Mahboobe Jassas, Mukil Ayyasamy, Kang Wang, Kevin Reuwer, Jonathan Laurer, Carolina Tallon, Bi-Cheng Zhou, Prasanna Balachandran, Patrick Hopkins, Elizabeth J. Opila
On-Site Speaker (Planned)	Elizabeth J. Opila
Abstract Scope	Refractory alloys, such as Nb-base C-103, are susceptible to rapid oxidation thereby requiring environmental barrier coatings (EBCs). New coating concepts utilize “high entropy” rare-earth oxide (HERO) mixtures to achieve requisite coating properties, as follows. Cubic phase rare earth (RE) sesquioxides (RE2O3) are desired for a good thermal expansion match to C-103. RE2O3 are high-temperature steam stable. Large RE cations readily form apatite barrier layers during reaction with molten calcium magnesium aluminosilicates, common contaminants in turbine engines. Oxygen diffusivity in Y2O3 is orders of magnitude lower than that in yttria stabilized zirconia. Combinations of RE cations in RE2O3 with large mass and size variation reduce thermal conductivity due to increased phonon scattering. Nb and RE2O3 have a stable interface due to the significantly higher stability of RE2O3 relative to Nb-oxides. RE2O3 mixtures synthesized by slurry or atmospheric plasma spray that simultaneously optimize EBC properties for refractory alloys will be described.

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

3D Ink-extrusion Printing of CoCr(Cu)FeNi High-entropy

A Bayesian Approach to Efficiently Discover Refractory High Entropy Alloys

Accelerated Discovery of Refractory High Entropy Materials by Machine Learning and High Throughput Experiments

An Automated, Machine Learning-driven Framework for Predicting High Temperature Oxidation Properties in Refractory Complex, Concentrated Alloys

An Experimentally Driven High-throughput Approach to Design Refractory High-entropy Alloys

Atomic Mobility Assessment of the fcc Ternary Co–Cr–Mn Alloy

Deformation Behaviors and Mechanisms in Single BCC Phase Refractory High-entropy Alloys

Design of Multicomponent Rare-earth Sesquioxides for Thermal/Environmental Barrier Coatings

Design & Microstructural Evolution of Fe-rich, Co-Free Multi-principal Element Alloys

Development of Ni-based Medium Entropy Alloys Using THERMOCALC Software

Do We Need a Refractory Alloy with Super-high Strength at Room Temperature?

E-10: Characterization of Microstructure and Properties of Al2FeCoNiCu High-entropy Alloy

E-11: Development of Oxide Melt Solution Calorimetry for High Entropy Ceramics

E-12: Exploration of High-ductility Ternary Refractory High-entropy Alloys Using First-principle Calculations and Machine Learning

E-13: High-throughput Design, Synthesis and Characterization of W-based Refractory High-entropy Alloys

E-14: High Throughput Multi-principal Element Alloy Exploration Using a Novel Composition Gradient Sintering Technique

E-15: Study on Texture Evolution In Cold Rolled High Entropy Alloy during Annealing

E-16: The Effect of Local Composition on the Initiation Mechanism of Adiabatic Shear Banding in WFeNiMo

Effect of Short-range Ordering on Diffusion Properties in Complex Concentrated Alloys

Experimental Determination of Mid-temperature Phases in Refractory Multi-Principal Element Ternary Alloys for Thermodynamic and Solid Solution Strengthening Modeling

Exploring Properties and Relationships in High Entropy Alloys

First Principles Prediction of Mechanical Properties of High Entropy Alloys

Grain Refinement and Nano-scale Precipitates in Non-equiatomic CoCrFeNiMo Medium-entropy Alloy

Hardness of Thin Film High Entropy Transition Metal Ceramics

High-Entropy Carbide Ceramics: Transformative Materials for Extreme Environments

High-entropy Materials Design by Integrating the First-principles Calculations and Machine Learning: A Case Study in the Al-Co-Cr-Fe-Ni System

High-temperature Oxidation and Mechanical Behavior of Ta-Ti-Cr Concentrated Refractory Alloys

High-throughput Approach for Stacking Fault Energies in HEAs

High-throughput Design of High-performance Lightweight High-entropy Alloys

High Entropy Alloys and NSF

Laser Welding of CoCrFeMnNi High Entropy Alloy to Inconel 718

Manufacturing of HEAs at Different Scales

Mechanical and Oxidation Behavior of Hf-25Ta-5X Refractory Complex Concentrated Alloys

Mechanical Properties And Deformation Mechanisms In TiMoNbZr Medium Entropy Alloys: A Molecular Dynamics Study

Microstructural Characterization and Oxidation Resistance in Multi FCC Principal Element Alloys

Modeling of Oxidation Resistance in Ni-containing High Entropy Alloys: A Combined First-principles and Machine Learning Study

Phase Evolution and Oxidation Study of Combinatorially Designed Hf-Al-Si Refractory Complex Concentrated Alloy for High Temperature Applications

Phonon Broadening and Thermal Conductivity in High Entropy Ceramic Carbide

Probing Short-Range Order and Its Effect on the Mechanical Properties of a CrCoNi Multi-principal Element Alloy Using Nanoindentation

Production, Characterization, Mechanical Properties and Corrosion Resistance of CrCoNi-based Multi-principal Element Alloys

Revealing Phase Transformation and Deformation Behavior in a B2-base High-Entropy Alloy by In-situ Neutron Diffraction

Revisit the VEC Criterion with High-throughput Ab Initio Calculations: A Case Study With Al-Co-Cr-Fe-Ni System

Theory-guided Design of Refractory Alloys for Ultra-high-temperature Applications

Thermodynamics and Phase Transformations in Refractory Complex Concentrated Superalloys

Towards to an ICME Approach for the Discovery of the Lightweight High Entropy Alloys

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