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
Notes
8.2 Classification of High-Entropy Ceramics according to Chemical Composition