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High-Entropy Materials: Advances and Applications

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Research in the field of high-entropy materials is advancing rapidly. High-Entropy Materials: Advances and Applications focuses on materials discovered using the high-entropy alloys (HEA) strategy. It discusses various types of high-entropy materials, such as face-centered cubic (FCC) and body-centered cubic (BCC) HEAs, fi lms and coatings, fi bers, and powders and hard-cemented carbides, along with current research status and applications • Describes, compositions and processing of high-entropy materials. • Summarizes industrially valuable alloys found in high-entropy materials that hold promise for promotion and application. • Explains how high-entropy materials can be used in many fi elds and can outperform traditional materials. This book is aimed at researchers, advanced students, and academics in materials science and engineering and related disciplines.

Author(s): Yong Zhang
Series: Emerging Materials and Technologies
Publisher: CRC Press
Year: 2023

Language: English
Pages: 163
City: Boca Raton

Cover
Half Title
Series
Title
Copyright
Contents
Preface
About the Author
Contributors
Chapter 1 Brief Introduction of High-Entropy Materials
1.1 Origination of High-Entropy Alloys
1.2 Entropy
1.3 Core Effects
1.3.1 High Entropy Effect
1.3.2 Slow Diffusion Effect
1.3.3 Lattice Distortion Effect
1.3.4 Cocktail Effect
1.4 Breaking the Trade-Off Between Strength and Ductility
1.5 Breaking the Performance Limits of Traditional Materials
1.6 Breaking the Trade-off Between the Physical Properties and Mechanical Properties
References
Chapter 2 FCC-Structured High-Entropy Materials
2.1 Introduction
2.2 GS101
2.3 GS102
2.4 Other Face-Centered Cubic High-Entropy Alloys
References
Chapter 3 BCC-Structured High-Entropy Materials
3.1 Production Methods of BCC HEAs
3.1.1 Solid-State Mixing
3.1.2 Liquid-State Mixing
3.1.3 Gas-State Mixing
3.2 Mechanical Behavior of BCC HEAs
3.2.1 Hardness and Compression Behavior of BCC HEAs
3.2.2 Tensile Behavior of BCC HEAs
3.3 Strengthening of BCC HEAs
3.3.1 Grain-Boundary Strengthening
3.3.2 Solid-Solution Strengthening
3.4 Particle Strengthening
3.4.1 TRIP Effect
3.4.2 Eutectic HEAs
3.4.3 Strengthening by Fine Particles
3.5 Special Performance and Application of BCC HEAs
3.5.1 Mechanical Behaviors of BCC HEAs at High Temperatures
3.5.2 Self-Sharpening
3.5.3 Oxidation
3.5.4 Corrosion
3.5.5 Irradiation
References
Chapter 4 Multiple-Phase High-Entropy Materials
4.1 Introduction
4.2 Microstructures And Properties Of Duplex-Phase HEAs
4.3 Irradiation Behavior of Duplex-Phase HEAs
4.4 Eutectic HEAs
References
Chapter 5 High-Entropy Films and Coating
5.1 Introduction
5.2 The Definition of High-Entropy Films
5.3 The Preparation Methods of High-Entropy Films
5.4 Several Typical High-Entropy Films
5.4.1 High-Hardness Films: Microstructure and Properties of AlCrFeNiTiNX Films
5.4.2 Thermal Stability Films: Microstructure and Properties of NbTiAlSiWXNY Films
5.4.3 Compositional Gradient Films
5.4.4 Flexible Wrinkle-Structured Films
5.5 Outlook
References
Chapter 6 High-Entropy Fibers
6.1 Introduction
6.2 HEA Fibers Prepared by Hot-Drawing
6.3 HEA Fibers Prepared by Cold-Drawing
6.4 HEA Fibers Prepared by the Taylor-Ulitovsky Method
6.5 Summary and Prospect
References
Chapter 7 High-Entropy Powder and Hard-Cemented Carbide Alloys
7.1 Introduction
7.2 Powder Processing
7.2.1 Mechanical Alloying of Ball Mill
7.2.2 Aerosol Method (EIGA and VIGA)
7.3 Processing of High-Entropy Cemented Carbides GS201 and GS301
7.3.1 Processing of High-Entropy Alloys GS201 and GS301
7.3.2 Processing of High-Entropy Cemented Carbides GS201 and GS301
References
Chapter 8 High-Entropy Ceramics and Intermetallic Compounds
8.1 Introduction
8.2 Classification of High-Entropy Ceramics according to Chemical Composition
8.2.1 High-Entropy Oxide of Rock Salt Structure
8.2.2 Fluorite Structure High-Entropy Oxide
8.3 Carbides
8.4 Nitrites
8.5 Synthesis and Preparation Methods
8.5.1 Powder
8.5.2 Bulk
8.5.3 Thin Films and Thick Coatings
8.6 Properties and Potential Applications
8.6.1 High-Entropy Ceramic Coatings
8.6.2 Thermoelectrics
8.6.3 Catalysts
References
Chapter 9 High-Entropy Polymers and Entropic Materials
9.1 Introduction
9.2 High-Entropy Polymer
9.2.1 Physical Blending
9.2.2 Chemical Blending
9.3 High-Entropy Concept Is Extended to HEPs
9.4 High-Entropy Composition Materials
9.5 Summary
9.6 Conflicts of Interest
References
Chapter 10 Future and Applications
10.1 Introduction
10.2 Lightweight Alloys
10.3 Superalloys
10.4 Soft Magnetic Materials
10.5 Radiation-Resistant Materials
References
Index