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El. knyga: Order from Chaos: Theoretical Principles and Practical Aspects of the New Class of High-Entropy Materials

  • Formatas: 192 pages
  • Išleidimo metai: 15-Nov-2024
  • Leidėjas: CRC Press
  • Kalba: eng
  • ISBN-13: 9781040222355
  • Formatas: 192 pages
  • Išleidimo metai: 15-Nov-2024
  • Leidėjas: CRC Press
  • Kalba: eng
  • ISBN-13: 9781040222355

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"Order from Chaos: Theoretical Principles and Practical Aspects of the New Class of High-Entropy Materials" offers a comprehensive exploration of High-Entropy Materials, a novel class of materials characterized by complex compositions and unexpected properties.



"Order from Chaos: Theoretical Principles and Practical Aspects of the New Class of High-Entropy Materials" offers a comprehensive exploration of High-Entropy Materials, a novel class of materials characterized by complex compositions and unexpected properties. The book delves into the fundamental principles underlying the formation and stabilization of differently structured High-Entropy Ceramics, presenting a detailed analysis of their main physical and technological properties. Moreover, the book discusses the challenges and future prospects of High-Entropy Ceramics as well as their potential applications in various industrial sectors, making it a useful resource for researchers and engineers in the field of advanced ceramics.

Acknowledgements. Preface. THE CONCEPT OF ENTROPY. Introduction.
Measuring Entropy. Information Theory (Shannon Entropy) and Materials
Science. High-Entropy MaterialsDefinition and Thermodynamics. DIFFERENT
CLASSES OF HIGH-ENTROPY MATERIALS. Rocksalt-Structured Oxides and
High-Entropy Rocksalts. Fluorite-Structured Oxides and High-Entropy
Fluorites. Perovskite-Structured Oxides and High-Entropy Perovskites.
Carbides and High-Entropy Carbides. Borides and High-Entropy Borides.
Nitrides and High-Entropy Nitrides. Silicides and High-Entropy Silicides.
Empirical Descriptors and High-Entropy Materials Design Rules. PROPERTIES AND
APPLICATIONS OF HIGH-ENTROPY MATERIALS. Noticeable High-Entropy Ceramics
Thermal Properties. Noticeable High-Entropy Ceramics Electrical Properties.
Noticeable High-Entropy Ceramics Magnetic Properties. Noticeable
High-Entropy Ceramics Optical Properties. Conclusions and Future Scenarios.
Index.
Luca Spiridigliozzi is a Post-doc Researcher and Lecturer at University of Cassino and Southern Lazio (Italy) in the field of Materials Science and Engineering, and a freelance scientific consultant for the industrial sector. His main research areas are: Fuel Cells, Rare Earths-based Materials, Catalysts and Entropy-Stabilized Materials. Even at a young age, he has published more than 40 scientific papers on international peer-reviewed journals and a monograph entitled Doped-Ceria Electrolytes: Synthesis, Sintering and Characterization.