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Atomistic and Continuum Modeling of Nanocrystalline Materials develops a complete and rigorous state-of-the-art analysis of the modeling of the mechanical behavior of nanocrystalline (NC) materials. Among other key topics, the material focuses on the novel techniques used to predict the behavior of nanocrystalline materials. Particular attention is given to recent theoretical and computational frameworks combining atomistic and continuum approaches. Also, the most relevant deformation mechanisms governing the response of nanocrystalline materials are addressed and discussed in correlation with available experimental data.…mehr
Atomistic and Continuum Modeling of Nanocrystalline Materials develops a complete and rigorous state-of-the-art analysis of the modeling of the mechanical behavior of nanocrystalline (NC) materials. Among other key topics, the material focuses on the novel techniques used to predict the behavior of nanocrystalline materials. Particular attention is given to recent theoretical and computational frameworks combining atomistic and continuum approaches. Also, the most relevant deformation mechanisms governing the response of nanocrystalline materials are addressed and discussed in correlation with available experimental data.
Fabrication Processes.- Structure, Mechanical Properties, and Applications of Nanocrystalline Materials.- Bridging the Scales from the Atomistic to the Continuum.- Predictive Capabilities and Limitations of Molecular Simulations.- Grain Boundary Modeling.- Deformation Mechanisms in Nanocrystalline Materials.- Predictive Capabilities and Limitations of Continuum Micromechanics.- Innovative Combinations of Atomistic and Continuum: Mechanical Properties of Nanostructured Materials.- Innovative Combinations of Atomistic and Continuum: Plastic Deformation of Nanocrystalline Materials.
Fabrication Processes.- Structure, Mechanical Properties, and Applications of Nanocrystalline Materials.- Bridging the Scales from the Atomistic to the Continuum.- Predictive Capabilities and Limitations of Molecular Simulations.- Grain Boundary Modeling.- Deformation Mechanisms in Nanocrystalline Materials.- Predictive Capabilities and Limitations of Continuum Micromechanics.- Innovative Combinations of Atomistic and Continuum: Mechanical Properties of Nanostructured Materials.- Innovative Combinations of Atomistic and Continuum: Plastic Deformation of Nanocrystalline Materials.
Fabrication Processes.- Structure, Mechanical Properties, and Applications of Nanocrystalline Materials.- Bridging the Scales from the Atomistic to the Continuum.- Predictive Capabilities and Limitations of Molecular Simulations.- Grain Boundary Modeling.- Deformation Mechanisms in Nanocrystalline Materials.- Predictive Capabilities and Limitations of Continuum Micromechanics.- Innovative Combinations of Atomistic and Continuum: Mechanical Properties of Nanostructured Materials.- Innovative Combinations of Atomistic and Continuum: Plastic Deformation of Nanocrystalline Materials.
Fabrication Processes.- Structure, Mechanical Properties, and Applications of Nanocrystalline Materials.- Bridging the Scales from the Atomistic to the Continuum.- Predictive Capabilities and Limitations of Molecular Simulations.- Grain Boundary Modeling.- Deformation Mechanisms in Nanocrystalline Materials.- Predictive Capabilities and Limitations of Continuum Micromechanics.- Innovative Combinations of Atomistic and Continuum: Mechanical Properties of Nanostructured Materials.- Innovative Combinations of Atomistic and Continuum: Plastic Deformation of Nanocrystalline Materials.
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