High-Entropy Materials (eBook)
VIII, 272 Seiten
Wiley-VCH (Verlag)
978-3-527-83718-2 (ISBN)
Significant update of knowledge in the field of high-entropy materials, including promising new high-entropy ceramics
High-Entropy Materials provides information on state-of-the-art development in the field of high-entropy materials, including high-entropy alloys, high-entropy ceramics, and a variety of their applications, covering many core topics to provide a thorough and detailed overview of the subject.
The book also thoroughly explores the applications of high-entropy materials in various areas, such as EBC/TBC coating, superhard and wear resistance coating, nuclear energy, batteries, catalysts, thermoelectric, supercapacitors, biocompatible structure, and microelectronics.
In High-Entropy Materials, readers can expect to find specific information on:
- Basics of high entropy materials, structural features and thermodynamics of high-entropy materials, and theoretical design in high-entropy materials
- Synthesis and processing of high-entropy materials and characterization of high-entropy materials, as well as their mechanical and functional properties
- Challenges and future directions of high-entropy materials, a relatively new type of material that has been in development only since the early 2000s
- How high-entropy materials are a horizon-broadening class of materials that can significantly further humanity's pursuit of progress
Focusing on the fundamentals and developments of high-entropy alloys and ceramics as well as on their microstructure and properties for a wide range of applications, High-Entropy Materials is an essential resource on the subject for materials scientists, metallurgists, mechanical engineers, and professionals in the aerospace industries.
Huimin Xiang is a senior engineer at Aerospace Research Institute of Materials & Processing Technology. He obtained his bachelor degree from University of Science and Technology of China and doctor degree from Chinese Academy of Sciences.
Fu-Zhi Dai is a senior researcher of AI for science institute and a senior engineer of state key lab at Aerospace Research Institute of Materials & Processing Technology.
Yanchun Zhou is the deputy director of the state key lab at Aerospace Research Institute of Materials & Processing Technology.
Huimin Xiang is a senior engineer at Aerospace Research Institute of Materials & Processing Technology. He obtained his bachelor degree from University of Science and Technology of China and doctor degree from Chinese Academy of Sciences. He has published more than 90 papers in peer-reviewed international journals with citations 1500 times. His main research interests include theoretical predictions on the properties of ultrahigh temperature ceramics, preparation and characterization of ultrahigh temperature ceramics and high-entropy ceramics. Fu-Zhi Dai is a senior engineer of state key lab at Aerospace Research Institute of Materials & Processing Technology. He obtained his academic degrees from Tsinghua University, and joined Aerospace Research Institute of Materials and Processing Technology in 2014. He has published around 80 papers in peer-reviewed international journals. Yanchun Zhou is the deputy director of state key lab at Aerospace Research Institute of Materials & Processing Technology. Having obtained his academic degrees from Tsinghua University and Chinese Academy of Sciences, before moving to Aerospace Research Institute of Materials and Processing Technology in 2010, he was Professor and Director of High-performance Ceramic Division, Shenyang National Laboratory for Materials Science. He has received numerous national and international awards. Zhou has published more than 450 papers in peer-reviewed international journals with citations 17100 times with H-index of 67. He ranked No.167 among the top 2% scientists in the field of materials in 2020 according to Stanford University and was recognized as highly cited authors in China.
1. Introductions to high entropy materials
2. Structural feature and thermodynamics of high-entropy materials
3. Theoretical design in high-entropy materials
4. Synthesis and processing of high-entropy materials
5. Characterization of high-entropy materials
6. Mechanical properties
7. Functional properties
8. Applications of high-entropy materials
9. Challenges and future directions of high-entropy materials
Erscheint lt. Verlag | 4.1.2023 |
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Sprache | englisch |
Themenwelt | Naturwissenschaften ► Chemie |
Schlagworte | Bruchmechanik • chemical thermodynamics • Chemie • Chemische Thermodynamik • Chemistry • Failure Fracture • Maschinenbau • Materials Science • Materialwissenschaften • mechanical engineering • Metalle • Metalle u. Legierungen • Metals & Alloys • Thermodynamik |
ISBN-10 | 3-527-83718-3 / 3527837183 |
ISBN-13 | 978-3-527-83718-2 / 9783527837182 |
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