Chapter 7 Basic alloying elements used in high-entropy alloys
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Rituraj Chandrakar
Abstract
The mechanical characteristics of high-entropy alloys (HEAs) can be improved by a variety of alloying elements; however, it is unclear how the alloying of various elements affects the changes in the microstructure and the mechanical properties of HEAs. The alloying elements like Cr, V, Ti, Zr, and Hf regulate the melting temperature, lattice constant, and the mass density of HEAs. The electrical structure and the mechanical characteristics of HEAs are significantly impacted by the valence electron concentration. High VEC can enhance mechanical characteristics while decreasing its ductility. Ti significantly affects ductility, while Cr-alloying significantly affects the mechanical characteristics of HEAs. Our findings offer the fundamental understanding required to direct the development of HEAs with superior mechanical characteristics.
Abstract
The mechanical characteristics of high-entropy alloys (HEAs) can be improved by a variety of alloying elements; however, it is unclear how the alloying of various elements affects the changes in the microstructure and the mechanical properties of HEAs. The alloying elements like Cr, V, Ti, Zr, and Hf regulate the melting temperature, lattice constant, and the mass density of HEAs. The electrical structure and the mechanical characteristics of HEAs are significantly impacted by the valence electron concentration. High VEC can enhance mechanical characteristics while decreasing its ductility. Ti significantly affects ductility, while Cr-alloying significantly affects the mechanical characteristics of HEAs. Our findings offer the fundamental understanding required to direct the development of HEAs with superior mechanical characteristics.
Kapitel in diesem Buch
- Frontmatter I
- Contents V
- About the editors VII
- List of contributing authors IX
- Chapter 1 Overview of high-entropy alloys 1
- Chapter 2 Classification of processing routes 31
- Chapter 3 Powder metallurgy route 41
- Chapter 4 Melting and casting route 57
- Chapter 5 Effect of processing routes on the microstructure/phases of high-entropy alloys 67
- Chapter 6 Correlation of the sintering parameters with the mechanical properties of HEAs processed through the powder metallurgy route 75
- Chapter 7 Basic alloying elements used in high-entropy alloys 83
- Chapter 8 Effect of alloying elements on the phases of high-entropy alloys 89
- Chapter 9 Effect of alloying elements on the properties of high-entropy alloys 99
- Chapter 10 Emerging processing routes 109
- Index 119
Kapitel in diesem Buch
- Frontmatter I
- Contents V
- About the editors VII
- List of contributing authors IX
- Chapter 1 Overview of high-entropy alloys 1
- Chapter 2 Classification of processing routes 31
- Chapter 3 Powder metallurgy route 41
- Chapter 4 Melting and casting route 57
- Chapter 5 Effect of processing routes on the microstructure/phases of high-entropy alloys 67
- Chapter 6 Correlation of the sintering parameters with the mechanical properties of HEAs processed through the powder metallurgy route 75
- Chapter 7 Basic alloying elements used in high-entropy alloys 83
- Chapter 8 Effect of alloying elements on the phases of high-entropy alloys 89
- Chapter 9 Effect of alloying elements on the properties of high-entropy alloys 99
- Chapter 10 Emerging processing routes 109
- Index 119
