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Meeting 2020 TMS Annual Meeting & Exhibition
Symposium Powder Materials for Energy Applications
Presentation Title Miscibility Gap Alloy Thermal Storage Materials
Author(s) Mark Copus
On-Site Speaker (Planned) Mark Copus
Abstract Scope Miscibility Gap Alloys (MGA) are a new latent heat Thermal Energy Storage (TES) material. As the name suggests, MGA take advantage of a miscibility gap between two elements or compounds, often metals or semi-metals, which are manufactured using various powder metallurgy techniques. MGA encapsulate a distributed fusible metallic phase while remaining a high thermal conductivity, macroscopically solid block, with high energy density. The result is a safe and effective method of thermal energy storage and delivery. The combination of these characteristics results in these materials being ideal for thermal storage. This paper presents the concept and manufacture method used to create MGA, and outlines an application as a solar receiver in a concentrated solar power dish.
Proceedings Inclusion? Planned: Supplemental Proceedings volume

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Bulk Supercrystalline Nanocomposites with Enhanced Mechanical Properties for Multifunctional Applications
Cold Spray Deposition of 304L Stainless-steel Powder on Used Fuel Dry Cask Storage Systems to Control Potential Stress Corrosion Cracking
Cubic Sub-micron BiFeO3 Powders for Improved Electrical Properties
Effect of Particle Spreading Dynamics on Powder Bed Quality
Fabrication of Complex Shape Components by Spark-plasma Sintering Utilizing 3D-printed Controllable Interface
Fabrication of Uniform-sized Hemispherical Mesopores on Gold-coated Silver Nanocubes for Enzyme Immobilization
Flash Sintering: From Fundamental Science to Energy-saving Materials Processing
Influence of Powder Microstructure on Cold Spray Deposited Cr Coatings for High Temperature Oxidation Resistance
Investigation of the Powder Processing of Near-final Shape AlNiCo Magnets for Eventual Use in Electric Drive Motors
Is Additive Manufacturing a Competition or Complimentary Technology to Current Processing of Metals?
Materials for Nuclear Applications Produced by Powder-based Techniques
Microstructural Evolution of a Nanostructured Ferritic Alloy Composite during In-situ Ion Irradiation
Microstructural Evolution of NFA and Cr3C2@SiC-NFA Composite during Ion Irradiation
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Next Stage Development of Iron-based GARS Alloy Powders for Cold Spray Deposition of ODS Structural Materials for Extreme Environments
Novel Additive Manufacturing Process Design for U3Si2 Fuel
Peltier Effect during Spark Plasma Sintering of Boron Carbide
Powder Metal Technology for High-performance Materials with Harmonic-structure
Processing and Characteristics of Nanostructured Ferritic Alloys for Nuclear Reactor Applications
Superelastic Zirconia Powder for Shockwave Dissipation in Energy Infrastructure
Synthesis, Sintering, and Electrochemical Properties of Lithium Conducting Garnets from Molten Salt Fluxes for All-Solid-State Lithium Batteries
Toward New Flash and Energy Efficient Fabrication Processes based on Sintering

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