Atomistic Modeling of Materials Failure
“Atomistic Modeling of Materials Failure” by Markus Buehler, published by Springer US on April 1, 2010, is a comprehensive resource that introduces molecular and atomistic modeling techniques applied to solid fracture and deformation. This softcover reprint of the hardcover first edition from 2008 spans 492 pages and is presented in English. The book covers a range of materials, including brittle, ductile, geometrically confined, and biological substances, detailing computational methods at the atomic scale and their application in modeling crack dynamics and deformation mechanisms.
Readers will find an in-depth exploration of molecular dynamics as a numerical modeling tool, including the use of classical interatomic potentials and the implementation of large-scale computing facilities. The text offers analytical discussions of numerical techniques alongside essential mathematical and physics fundamentals. Case studies featuring specific materials such as silicon, copper, and fibrous proteins illustrate the techniques and problems addressed throughout the book. This edition serves as a valuable reference for engineers, materials scientists, and researchers in both academia and industry, focusing on multi-scale modeling techniques that bridge atomistic and continuum mechanical methods.
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Atomistic Modeling of Materials Failure is an introduction to molecular and atomistic modeling techniques applied to solid fracture and deformation. Focusing on a variety of brittle, ductile, geometrically confined and biological materials, this detailed overview includes computational methods at the atomic scale, and describes how these techniques can be used to model the dynamics of cracks and other deformation mechanisms.
A full description of molecular dynamics (MD) as a numerical modeling tool covers the use of classical interatomic potentials and implementation of large-scale massively parallelized computing facilities in addition to the general philosophies of model building, simulation, interpretation and analysis of results. Readers will find an analytical discussion of the numerical techniques along with a review of required mathematical and physics fundamentals. Example applications for specific materials (such as silicon, copper, fibrous proteins) are provided as case studies for each of the techniques, areas and problems discussed.
Providing an extensive review of multi-scale modeling techniques that successfully link atomistic and continuum mechanical methods, Atomistic Modeling of Materials Failure is a valuable reference for engineers, materials scientists, and researchers in academia and industry.
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