Atomistic Modeling of Materials Failure
Buehler, Markus J.
creator
editor.
SpringerLink (Online service)
text
xxu
Boston, MA
Springer US
2008
monographic
eng
access
online resource.
Atomistic Modeling of Materials Failure is an introduction to molecular and atomistic modeling techniques applied to solid deformation and fracture. Focusing on a variety of brittle, ductile and geometrically confined 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, dislocations 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) 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.
Basics of Atomistic, Continuum and Multiscale Methods -- Basic Atomistic Modeling -- Basic Continuum Mechanics -- Atomistic Elasticity: Linking Atoms and Continuum -- Multiscale Modeling and Simulation Methods -- Material Deformation and Failure -- Deformation and Dynamical Failure of Brittle Materials -- Deformation and Fracture of Ductile Materials -- Deformation and Fracture Mechanics of Geometrically Confined Materials.
edited by Markus J. Buehler.
Engineering
Mechanics
Materials
Biomaterials
Nanotechnology
Surfaces (Physics)
Engineering
Continuum Mechanics and Mechanics of Materials
Characterization and Evaluation of Materials
Mechanics
Biomaterials
Nanotechnology
TA405-409.3
QA808.2
620.1
Springer eBooks
9780387764269
http://dx.doi.org/10.1007/978-0-387-76426-9
http://dx.doi.org/10.1007/978-0-387-76426-9
100301
20141014113433.0
978-0-387-76426-9