High Entropy Alloys
Innovations, Advances, and Applications
Herausgeber: Gupta, Manoj; Srivatsan, T. S.
High Entropy Alloys
Innovations, Advances, and Applications
Herausgeber: Gupta, Manoj; Srivatsan, T. S.
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The book gives a cohesive overview of innovations, advances in processing and characterization, and applications for high entropy alloys (HEAs) in performance-critical and non-performance-critical sectors. It covers manufacturing and processing, advanced characterization and analysis techniques and evaluation of mechanical and physical properties.
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The book gives a cohesive overview of innovations, advances in processing and characterization, and applications for high entropy alloys (HEAs) in performance-critical and non-performance-critical sectors. It covers manufacturing and processing, advanced characterization and analysis techniques and evaluation of mechanical and physical properties.
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 760
- Erscheinungstermin: 21. Juli 2020
- Englisch
- Abmessung: 240mm x 161mm x 45mm
- Gewicht: 1264g
- ISBN-13: 9780367356330
- ISBN-10: 0367356333
- Artikelnr.: 69703083
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 760
- Erscheinungstermin: 21. Juli 2020
- Englisch
- Abmessung: 240mm x 161mm x 45mm
- Gewicht: 1264g
- ISBN-13: 9780367356330
- ISBN-10: 0367356333
- Artikelnr.: 69703083
T.S. Srivatsan, PhD, Professor of Materials Science and Engineering in the Department of Mechanical Engineering at the University of Akron (Ohio, USA), earned his MS in Aerospace Engineering in 1981 and his PhD in Mechanical Engineering in 1984 from the Georgia Institute of Technology (USA). He has authored or edited 65 books, delivered over 200 technical presentations, and authored or co-authored more than 700 archival publications in journals, book chapters, book reviews, proceedings of conferences, and technical reports. His RG score is 45 with a h-index of 53 and Google Scholar citations of 9000, ranking him to be among the top 2% of researchers in the world. He is a Fellow of (i) the American Society for Materials International, (ii) the American Society of Mechanical Engineers, and (iii) the American Association for Advancement of Science. Manoj Gupta, PhD, is Associate Professor of Materials at NUS, Singapore. He is a former Head of Materials Division of the Mechanical Engineering Department and Director Designate of Materials Science and Engineering Initiative at NUS, Singapore. In August 2017, he was highlighted among the Top 1% Scientists of the World by the Universal Scientific Education and Research Network and in the Top 2.5% among scientists as per ResearchGate. In 2018, he was announced as World Academy Championship Winner in the area of Biomedical Sciences by the International Agency for Standards and Ratings. A multiple award winner, he actively collaborates/visits as an invited researcher and visiting and chair professor in Japan, France, Saudi Arabia, Qatar, China, the United States, and India.
High Entropy Alloys: An Overview on Current Developments. SECTION A:
Innovations. 1.Interstitial Alloy Structuring of High Entropy Alloys. 2.
Processing Challenges and Properties of Lightweight High Entropy Alloys. 3.
High Entropy Alloys in Bulk Form: Processing Challenges and Possible
Remedies. SECTION B: Advances. 4. Effect of Carbon Addition on the
Microstructure and Properties of CoCrFeMnNi High Entropy Alloys. 5. Effect
of Processing Route and Silicon Addition to High Entropy Alloy
CoCrCuFeNiSix High Entropy Alloys. 6. The Corrosion and Thermal Behavior of
AlCr1.5CuNi2FeCox High Entropy Alloys. 7. Examining, Analyzing,
Interpreting, and Understanding the Fracture Resistance of High Entropy
Alloys. 8. Thermodynamics of High Entropy Alloys. 9. Electrodeposition of
High Entropy Alloy Coatings: Microstructure and Corrosion Properties. 10.
Understanding Disordered Multicomponent Solid Solutions or High Entropy
Alloys Using X-Ray Diffraction. 11. Microstructure and Cracking Noise in
High Entropy Alloys. SECTION C: Applications. 12. Benefits of the Selection
and Use of High Entropy Alloys for High-Temperature Thermoelectric
Applications. 13. Fatigue Behavior of High Entropy Alloys: A Review. 14.
Functional Properties of High Entropy Alloys. 15. High Entropy Alloys:
Challenges in Commercialization and the Road Ahead. 16. Fracture and
Fatigue Behavior of High Entropy Alloys: A Comprehensive Review. 17.
Welding of High Entropy Alloys-Techniques, Advantages, and Applications: A
Review. 18. High Entropy Alloys: A Potentially Viable Magnetic Material.
19. High Entropy Alloy Fibers Having High Tensile Strength and Ductility.
20. A Useful Review on High Entropy Films.
Innovations. 1.Interstitial Alloy Structuring of High Entropy Alloys. 2.
Processing Challenges and Properties of Lightweight High Entropy Alloys. 3.
High Entropy Alloys in Bulk Form: Processing Challenges and Possible
Remedies. SECTION B: Advances. 4. Effect of Carbon Addition on the
Microstructure and Properties of CoCrFeMnNi High Entropy Alloys. 5. Effect
of Processing Route and Silicon Addition to High Entropy Alloy
CoCrCuFeNiSix High Entropy Alloys. 6. The Corrosion and Thermal Behavior of
AlCr1.5CuNi2FeCox High Entropy Alloys. 7. Examining, Analyzing,
Interpreting, and Understanding the Fracture Resistance of High Entropy
Alloys. 8. Thermodynamics of High Entropy Alloys. 9. Electrodeposition of
High Entropy Alloy Coatings: Microstructure and Corrosion Properties. 10.
Understanding Disordered Multicomponent Solid Solutions or High Entropy
Alloys Using X-Ray Diffraction. 11. Microstructure and Cracking Noise in
High Entropy Alloys. SECTION C: Applications. 12. Benefits of the Selection
and Use of High Entropy Alloys for High-Temperature Thermoelectric
Applications. 13. Fatigue Behavior of High Entropy Alloys: A Review. 14.
Functional Properties of High Entropy Alloys. 15. High Entropy Alloys:
Challenges in Commercialization and the Road Ahead. 16. Fracture and
Fatigue Behavior of High Entropy Alloys: A Comprehensive Review. 17.
Welding of High Entropy Alloys-Techniques, Advantages, and Applications: A
Review. 18. High Entropy Alloys: A Potentially Viable Magnetic Material.
19. High Entropy Alloy Fibers Having High Tensile Strength and Ductility.
20. A Useful Review on High Entropy Films.
High Entropy Alloys: An Overview on Current Developments. SECTION A:
Innovations. 1.Interstitial Alloy Structuring of High Entropy Alloys. 2.
Processing Challenges and Properties of Lightweight High Entropy Alloys. 3.
High Entropy Alloys in Bulk Form: Processing Challenges and Possible
Remedies. SECTION B: Advances. 4. Effect of Carbon Addition on the
Microstructure and Properties of CoCrFeMnNi High Entropy Alloys. 5. Effect
of Processing Route and Silicon Addition to High Entropy Alloy
CoCrCuFeNiSix High Entropy Alloys. 6. The Corrosion and Thermal Behavior of
AlCr1.5CuNi2FeCox High Entropy Alloys. 7. Examining, Analyzing,
Interpreting, and Understanding the Fracture Resistance of High Entropy
Alloys. 8. Thermodynamics of High Entropy Alloys. 9. Electrodeposition of
High Entropy Alloy Coatings: Microstructure and Corrosion Properties. 10.
Understanding Disordered Multicomponent Solid Solutions or High Entropy
Alloys Using X-Ray Diffraction. 11. Microstructure and Cracking Noise in
High Entropy Alloys. SECTION C: Applications. 12. Benefits of the Selection
and Use of High Entropy Alloys for High-Temperature Thermoelectric
Applications. 13. Fatigue Behavior of High Entropy Alloys: A Review. 14.
Functional Properties of High Entropy Alloys. 15. High Entropy Alloys:
Challenges in Commercialization and the Road Ahead. 16. Fracture and
Fatigue Behavior of High Entropy Alloys: A Comprehensive Review. 17.
Welding of High Entropy Alloys-Techniques, Advantages, and Applications: A
Review. 18. High Entropy Alloys: A Potentially Viable Magnetic Material.
19. High Entropy Alloy Fibers Having High Tensile Strength and Ductility.
20. A Useful Review on High Entropy Films.
Innovations. 1.Interstitial Alloy Structuring of High Entropy Alloys. 2.
Processing Challenges and Properties of Lightweight High Entropy Alloys. 3.
High Entropy Alloys in Bulk Form: Processing Challenges and Possible
Remedies. SECTION B: Advances. 4. Effect of Carbon Addition on the
Microstructure and Properties of CoCrFeMnNi High Entropy Alloys. 5. Effect
of Processing Route and Silicon Addition to High Entropy Alloy
CoCrCuFeNiSix High Entropy Alloys. 6. The Corrosion and Thermal Behavior of
AlCr1.5CuNi2FeCox High Entropy Alloys. 7. Examining, Analyzing,
Interpreting, and Understanding the Fracture Resistance of High Entropy
Alloys. 8. Thermodynamics of High Entropy Alloys. 9. Electrodeposition of
High Entropy Alloy Coatings: Microstructure and Corrosion Properties. 10.
Understanding Disordered Multicomponent Solid Solutions or High Entropy
Alloys Using X-Ray Diffraction. 11. Microstructure and Cracking Noise in
High Entropy Alloys. SECTION C: Applications. 12. Benefits of the Selection
and Use of High Entropy Alloys for High-Temperature Thermoelectric
Applications. 13. Fatigue Behavior of High Entropy Alloys: A Review. 14.
Functional Properties of High Entropy Alloys. 15. High Entropy Alloys:
Challenges in Commercialization and the Road Ahead. 16. Fracture and
Fatigue Behavior of High Entropy Alloys: A Comprehensive Review. 17.
Welding of High Entropy Alloys-Techniques, Advantages, and Applications: A
Review. 18. High Entropy Alloys: A Potentially Viable Magnetic Material.
19. High Entropy Alloy Fibers Having High Tensile Strength and Ductility.
20. A Useful Review on High Entropy Films.