Overview

Full Product Details

Author:   Krishanu Biswas ,  Nilesh Prakash Gurao ,  Tanmoy Maiti ,  Rajiv S. Mishra
Publisher:   Springer Verlag, Singapore
Imprint:   Springer Verlag, Singapore
Edition:   1st ed. 2022
Weight:   0.975kg
ISBN:  

9789811939181

ISBN 10:   9811939187
Pages:   464
Publication Date:   23 November 2022
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

Chapter 1. Historical Perspective of High Entropy: Paradigm Shift and Origin of Path Breaking Concept 1.1 Introduction: Alloys and Their Importance in Civilization 1.2 The Alloy World: Solid Solutions and Compounds 1.4 Solid Solutions in Alloys and Ceramics 1.3 Special  Alloys 1.4 Ceramics: Oxides, Borides, Nitride and Carbides 1.5 The Multicomponent Materials in Metals and Ceramics 1.6. High Entropy Materials 1.7 The Scope of This Book in the Present Context Chapter 2. High-Entropy Materials: Basic Concepts 2.1 Introduction 2.2 High Entropy Alloys and Ceramics: Definition and Classification 2.3. Entropy of Mixing : It Estimation and Effects on Alloy Development 2.3 High Entropy Effects 2.4 Composition Notation 2.5 Thermodynamics of Multicoponent systems 2.6  Kinetics: Intermixing and diffusion Chapter 3. Phase and Microstructural Selection in High-Entropy Materials 3.1 Alloy Design Strategies 3.2 Predicting Solid Solubility from Hume-Rothery Rules 3.3 Solid Solution Formation in Equiatomic and Nonequiatomic HEMs 3.4 Mutual Solubility and Phase Formation Tendency in HEAs 3.5 Parametric Approaches to Predict Crystalline Solid Solution 3.5 CALPHAD and Ab Initio Approaches 3.6 Pettifor Map Approach to Predict the Formation of Intermetallic Compound, Quasicrystal, and Glass 3.7 Phase Selection Approach to Find Single-Phase vs. Multiphase HEMs 3.7 Design Strategies for High Entropy Oxides and Borides  3.8 Microstructure of HEMs ·         Chapter 4 : Diffusion in HEMs   4.1. Diffusion in Multicomponent Systems: Theory and Experiment   4.2 Diffusivities of HEAs: Measured vs. Postulated   4.3 Diffusional Solid State Phase Transformation in HEAs      Eutectoid, Phase Separation and Precipitation   4.4. Integration of diffusional transformation with models of phase transformation   Chapter 5. High Entropy Material Design using ICME and Materials Genome 5.1 Introduction to ICME 5.2 Integrated Computational Materials Engineering Approach to Design and Develop New Materials 5.3 HEMs and their link to ICME 5.4 Development of Materials Database for HEMs Chapter 6. Synthesis and Processing  of  Bulk HEMs 6.1 Introduction 6.2 Processing of HEAs 6.2.1 Melting and Casting Route 6.2.2 Powder Metallurgical Processing Route 6.3 HEA-Based Composites 6.4 High Entropy Ceramics: Oxide and Borides 6.5 Combinatorial Materials Synthesis 6.6 Additive manufacturing Chapter 7. Synthesis and Processing  of  HEA Coating and Thin Films 7.1 Introduction 7.2. HEA Coatings : Challenges 7.3 HEA Thin Films: Preparation and Challenges 7.4 Combinatorial Synthesis Approach for Coating and Thin Films Chapter 8. Structural Properties 8.1 Introduction 8.2 Hot and cold working of HEA 8.3 Mechanical Properties 8.4 Corrosion Behavior 8.5 Oxidation Behavior Chapter 9. Functional Applications 9.1 Introduction 9.2 Electronics 9.3 Thermoelectrics 9.4 Magnetism 9.5 Hydrogen Storage 9.6 Waste Management Chapter 10. Applications 10.1 Introduction 10.2 Goals of Property Improvement 10.3 Advanced Applications Demanding New Materials 10.4 Examples of Applications 10.5 Patents on HEAs and Related Materials 10.6 Future Directions References Appendix

Reviews

Author Information

Dr. Krishanu Biswas is currently Ranjit Singh Chair Professor at the Department of Materials Science and Engineering of Indian Institute of Technology Kanpur. The research work performed by him ranges from development of complex concentrated high entropy alloys, understanding the solidification behaviour of alloys, novel processing of ceramic composites, the alloying behaviour at nanoscale, and development of bulk alloy catalysts for hydrogen energy and environment. He has published over 200 papers in international repute peer-reviewed journals and delivered 52 invited talks in different national and international conferences. He is Principal Inventor of three patents. He has international collaboration with Japan and Germany. He teaches extensively at IITK on variety of subjects including phase equilibria, manufacturing processes, phase transformations, process metallurgy, solidification processing, etc. He has taught large number of courses at IIT Kanpur and developed courses on NPTEL platform as well as Massive Open Online Courses for the benefit of students in the materials science community in last 5 years. He has received numerous awards, fellowships and professional reorganization. He has co-edited several issues on high entropy materials in various international journals of repute, including Scripta Materials. He is Member of inaugural editorial board of High Entropy Alloys & Materials, by Springer Nature. He is also on the editorial board of Transactions of Indian Institute of Metals. He has served as Key Reader for Metallurgical and Materials Transactions, A (2013–2016). Dr. Nilesh Prakash Gurao is presently working as Associate Professor at the Department of Materials Science and Engineering at the Indian Institute of Technology Kanpur, India. He completed his undergraduate degree in Metallurgical and Materials Engineering from Visvesvaraya National Institute of Technology, Nagpur, India, in 2005 and Ph.D. from the Department of Materials Engineering at the Indian Institute of Science, Bangalore, India, in 2010. He has worked as Postdoctoral Fellow in the Department of Mechanical Engineering at the University of Saskatchewan, Saskatoon, Canada, before joining as Assistant Professor at IIT Kanpur in 2012. He has established the Microstructure-Texture-Stress Laboratory at IIT Kanpur and is presently carrying out research in the broad domain of crystallographic texture, mechanical behaviour of materials and materials processing. His current research interests include in situ experiments using electron backscatter diffraction, synchrotron and neutron diffraction, complex concentrated alloys and additive manufacturing. He is Recipient of the Young Metallurgist of the Year award and the INSA medal for young scientist and is working towards establishing high throughput experimentation facilities towards rapid prototyping of materials and processes for structural applications. Dr. Tanmoy Maiti is Associate Professor in the Department of Material Science and Engineering at the Indian Institute of Technology Kanpur, India. Dr. Maiti received his Ph.D. in Materials Science and Engineering from The Pennsylvania State University, University Park, USA, in December 2007.  Prior to joining IIT Kanpur, he did his postdoctoral research in Lawrence Berkeley National Laboratory and Pennsylvania State University. He received “PK KelkarYoung Faculty Research Fellowship” from IIT Kanpur for outstanding research. Dr. Maiti is also Recipient of the IEI Young Engineers Award, India. He has been featured in Journal of Materials Research focus issue on “2019 Early Career Scholars in Materials Science”. His research interests span the areas of thermoelectrics, plasmonics, photovoltaics and oxide electronic materials and devices. However, a common thread in his research is to address the global energy problem by developing novel materials for clean energy generation and the design of next generation chip-scale technology based on nanophotonics and nanoelectronics. Dr. Rajiv S. Mishra is currently Distinguished Research Professor at the University of North Texas. Before that he served as Curators’ Professor of Metallurgical Engineering in the Department of Materials Science and Engineering at the Missouri S&T. He is also Director of Advanced Materials and Manufacturing Processes at UNT and Fellow of ASM International. He is Past-Chair of the Structural Materials Division of TMS and served on the TMS Board of Directors (2013–16). He has authored/co-authored >400 papers in peer-reviewed journals and proceedings and is Principal Inventor of four US patents. His current publication-based h-index is 75, and his papers have been cited more than 32000 times. He has co-authored two books: (1) Friction Stir Welding and Processing and (2) Metallurgy and Design of Alloys with Hierarchical Microstructures. He has edited or co-edited fifteen TMS conference proceedings. He served as Associate Editor of the Journal of Materials Processing Technology (2018-21) and is on the editorial boards of Materials Science and Engineering A, Science and Technology of Welding and Joining, and Materials Research Letters. He is Founding Editor of a short book series on Friction Stir Welding and Processing published by Elsevier and has co-authored seven short books in this series.

Tab Content 6

Author Website:  

Customer Reviews

Recent Reviews

No review item found!

Add your own review!

Countries Available

All regions