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1. Rare Earth Oxide Applications in Ceramic Coatings for Turbine Engines

   Ceramic coatings containing rare earth oxides (REO) play a critical role in enabling high performance and efficiency in gas turbines used for power...

   David L. Poerschke, Jessica A. Krogstad in Rare Earth Metals and Minerals Industries

   Chapter 2024
   

2. Effect of Rare Earth Oxide Addition on Regenerated Cemented Carbide

   With the wide application of cemented carbide, W and Co, the main raw materials for preparing cemented carbide, are depleted increasingly. Therefore,...

   ** Du, Yifei Wang, ... Chongyan Zhang in Journal of Materials Engineering and Performance

   Article 24 May 2023
   

3. Epoxide synthesis of binary rare earth oxide aerogels with high molar ratios (1:1) of Eu, Gd, and Yb

   Aerogels containing rare earth elements are promising compounds for designing various functional materials, since they combine the properties of...

   S. V. Kameneva, Kh. E. Yorov, ... V. K. Ivanov in Journal of Sol-Gel Science and Technology

   Article 07 June 2023
   

4. Rare Earth Element Reduction to Metals

   The reduction to metal of rare earth elements is a complex, energy-intensive, and environmentally damaging process currently undertaken by molten...

   Tommee Larochelle in Rare Earth Metals and Minerals Industries

   Chapter 2024
   

5. Conventional Rare Earth Element Mineral Deposits—The Global Landscape

   Four conventional mineral deposit types—carbonatite, alkaline igneous, heavy mineral sand, and regolith-hosted ion-adsorption clay deposits—currently...

   Nora K. Foley, Robert A. Ayuso in Rare Earth Metals and Minerals Industries

   Chapter 2024
   

6. Nanoscale Rare-Earth-Based Mixed-Metal Oxides for Solar Photocatalytic Applications

   The research andSolar photocatalytic development have increased regarding rare-earth-basedRare-earth-based mixed-metal oxideMetal oxide...

   Sahar Zinatloo-Ajabshir, Seyyed Javad Heydari-Baygi in Advanced Ceramics

   Chapter 2024
   

7. Phase Transition Behavior of Rare Earth Oxide Ce2O3 in CaO–SiO2–5wt.% Al2O3 System at 1673–1873 K

   Based on previous phase diagram studies on the CaO-SiO2-Ce2O3-5wt.% Al2O3 system at 1673–1773 K. In this study, the equilibrium phase diagram...

   Rensheng Li, Renyi Yang, ... You Zhou in TMS 2024 153rd Annual Meeting & Exhibition Supplemental Proceedings

   Conference paper 2024
   

8. High-Performance Aluminum Castings Containing Rare Earth Elements

   Cerium(IV) oxide (CeO2) is one of the predominate oxides produced in rare earth mining. Much of it is discarded after separation from the higher...

   David Weiss in Rare Earth Metals and Minerals Industries

   Chapter 2024
   

9. Reduction of Rare Earth Elements Through Electrochemical and Metallothermic Methods

   An overview of the reduction of rare earth elements through metallothermic and electrochemical methods is presented. The basic thermodynamic...

   Patrick R. Taylor, Matthew Earlam, Sridhar Seetharaman in Rare Earth Metals and Minerals Industries

   Chapter 2024
   

10. Rare Earth Magnets: Manufacturing and Applications

    A comprehensive review of rare earth magnet manufacturing and applications would need several book volumes to cover these topics in detail, so with...

    James Bell in Rare Earth Metals and Minerals Industries

    Chapter 2024
    

11. Rare Earth Markets and Their Industrial Applications

    Continuous discoveries of the unique chemical and physical properties of rare earth elements (REEs) throughout history have had a major impact on...

    Gaétan Lefebvre, Nicolas Charles in Rare Earth Metals and Minerals Industries

    Chapter 2024
    

12. Rare Earth Luminescent Materials and Laser Materials

    In 1906, Becquerel observed a particularly sharp spectral line from an ore containing rare earth and transition-metal elements. At that time, rare...

    Changzhen Wang in Theory and Application of Rare Earth Materials

    Chapter 2023
    

13. Separation of Rare Earth Elements from Monazite Via Sulfidation

    Rare earth elementsRare Earth Elements are critical for sustainability applications; yet, their extractionExtraction, separationSeparation, and...

    Caspar Stinn, Vasu Kaker, ... Antoine Allanore in Rare Metal Technology 2023

    Conference paper 2023
    

14. Occurrence State and Resources of Rare Earth Elements

    Rare earth elements, also known as rare earth metals, are located on the left side of Group III B in the Periodic Table, namely scandium (Sc) and...

    Changzhen Wang in Theory and Application of Rare Earth Materials

    Chapter 2023
    

15. Processing of Rare Earth Metal Oxide for Use as a Master Alloy in the Metallurgical Industry

    Consumption of rare-earth metal (REM) oxides, such as cerium and lanthanum, is significantly lower than their production. This discrepancy is...

    I. S. Nikulin, T. B. Nikulicheva, ... Yu.I. Karlina in Metallurgist

    Article 01 January 2024
    

16. Energy-Related Rare Earth Element Sources

    Energy-related materials such as coal, coal-bearing wastes, and coal combustion products are traditionally thought of as sources or by-products of...

    Allan Kolker, Liliana Lefticariu, Steven T. Anderson in Rare Earth Metals and Minerals Industries

    Chapter 2024
    

17. Rare Earth Catalysts and Catalytic Activity

    More than 90% of chemicals, including ammonia (NH3), nitric acid, and sulfuric acid, are produced in the presence of catalysts. Catalysts are also...

    Changzhen Wang in Theory and Application of Rare Earth Materials

    Chapter 2023
    

18. Rare Earth Nanomaterials

    Nanometer (nm) is a measure of scale: 1 nm = 10−9 m or 1 nm = 10−3 μm. Generally, the term “nanoparticles” is used to refer to particles ranging in...

    Changzhen Wang in Theory and Application of Rare Earth Materials

    Chapter 2023
    

19. Advancements in Aluminum Matrix Composites: A Comprehensive Review on the Mechanical and Microstructural Attributes of Rare Earth Elements (REEs) and Rare Earth Oxides (REOs) Doped Materials

    Rare earth elements (REEs) and their oxides have become seed of the modern technology. Lanthanum (La), cerium (Ce), praseodymium (Pr), neodymium...

    Dinesh Kumar Patel, Vipin Kumar Sharma, Hari Om Sharma in Transactions of the Indian Institute of Metals

    Article 10 June 2024
    

20. Rare Earth Research, Production, Policy, and Future Development

    Since scientists discovered mixed-rare earth “yttrium soil” in 1787, 234 years have passed. The research, production, development, and application of...

    Changzhen Wang in Theory and Application of Rare Earth Materials

    Chapter 2023