Heterostructured Metals: Processing, Interfaces, Defect Structures and Deformation Mechanisms

Amit Misra · JIAN WANG

2026년 4월 · Elsevier

eBook

300

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eBook 정보

Heterostructured Metals: Processing, Interfaces, Defect Structures and Deformation Mechanisms provides a comprehensive study of defect structures and deformation mechanisms in interphase boundary-dominated nano and hetero structured metallic systems with examples and perspectives on future research directions and technological applications in this topical area. This book covers the fundamental descriptions of the atomic structures, thermodynamics and kinetics of defect-interface interactions and the relationships between mechanical behavior and interfacial defect structures. It also provides examples of a broad range of model and engineering alloy systems covering cubic and non-cubic crystal structures. The state-of-the-art atomistic and meso-scale computational methods, experimental nanomechanical and in situ characterization of deformation mechanisms and material syntheses using physical vapor deposition, melt and deformation processing are described. - Presents the atomic structures and thermodynamic and mechanical properties of metallic interphase boundaries - Covers interaction of interphase boundaries with glide dislocations and point defects - Discusses the unusual interface-dominated mechanical behavior and damage tolerance of metallic nanolaminates (multilayers) and hetero-structured composites

저자 정보

Amit Misra is the Edward DeMille Campbell Collegiate Professor of Materials Science & Engineering (MSE) at the University of Michigan (UM), Ann Arbor. He served as MSE Department Chair at UM from 2014-2022. Prior to joining UM in 2014, he worked for nearly 18 years at Los Alamos National Laboratory (LANL). He received is PhD (MSE) degree from University of Michigan in 1994 and Bachler's (Metallurgical Engineering from IT-BHU (now IIT-Varanasi), India. His research expertise includes metallic materials processing by physical vapor deposition, laser additive manufacturing and deformation processing, small-scale mechanical testing and characterization using scanning and transmission electron microscopy including in situ nanomechanics. He is a Fellow of TMS, MRS, ASM-International, AAAS and LANL, and was recognized with TMS Cyril Stanley Smith Award, TMS Brimacombe Medalist, TMS-MPMD Distinguished Scientist/Engineer Award; and TMS-MPMD Distinguished Service Award.Jian Wang is a Fellow of ASME, a Fellow of ASM International, and Wilmer J. and Sally L. Hergenrader Presidential Chair Professor of Mechanical and Materials Engineering at the University of Nebraska-Lincoln, USA. He received his Ph.D. from Rensselaer Polytechnic Institute, in 2006, and worked at Los Alamos National Laboratory (LANL) until 2015. His research focuses on quantitatively exploring the structure-properties relations of materials using multi-scale theory, modeling, and experimental methods and techniques. He was awarded the LANL Distinguished Postdoctoral Performance Award (2009), the LDRD/Early Career Award (2011), TMS MPMD Young Leader Award (2013), the International Plasticity Young Research Award (2015), Materials Today Rising Star Award in the category of Materials Genome Innovation (2018), TMS MPMD Distinguished Scientist Award (2022) and TMS BRIMACOMBE MEDALIST Award (2023). He served on the Editorial Board of the International Journal of Plasticity (2015~), Materials Research Letters (2016~), and others.