Hsueh C.-H., Schmauder S., Chen C.-S., Chawla K.K., Chawla N., Chen W., Kagawa Y. (Eds.) Handbook of Mechanics of Materials (3 Volume Set)

Springer, 2019. — 2430 p. — (Springer Reference). — ISBN: 978-981-10-6883-6.Advances in micromanufacturing and nanotechnology have offered unique opportunities of tailoring the mechanical, electronic, magnetic, optical, and chemical properties of materials from the molecular or the atomic scale. Miniaturization of structural components and functional devices has led to the development of new technologies, such as microelectromechanical systems, micro-engines, smart structures, lab-on-a-chip, spintronics devices, and biomedical sensing devices. However, the abovementioned systems and devices have one issue in common. In order to perform their functionalities, they must maintain their structural integrity and reliability during their service life. Thus, the mechanical properties are major concerns for design engineers and device manufacturers. Characterization of the mechanical properties requires both the tools and the theory to obtain and analyze information over multiple length and time scales.
Contents Volume 1
Nanomechanics
Dislocation Nucleation Mediated Plasticity of FCC Nanowires
Indentation Behavior of Metallic Glass Via Molecular Dynamics Simulation
Surface/Interface Stress and Thin Film Stress
Characterizing Mechanical Properties of Polymeric Material: A Bottom-Up Approach
Fracture Nanomechanics
In Situ Transmission Electron Microscopy Investigation of Dislocation Interactions
Multiscale Modeling of Radiation Hardening
Atomistic Simulations of Metal–Al2O3 Interfaces
Multiscale Simulation of Precipitation in Copper-Alloyed Pipeline Steels and in Cu-Ni-Si Alloys
Atomistic Simulations of Hydrogen Effects on Lattice Defects in Alpha Iron
Molecular Dynamics Simulations of Nanopolycrystals
Modeling Dislocation in Binary Magnesium-Based Alloys Using Atomistic Method
Atomistic Simulation Techniques to Model Hydrogen Segregation and Hydrogen Embrittlement in Metallic Materials
Modeling and Simulation of Bio-inspired Nanoarmors
Thermal Vibration of Carbon Nanostructures
Mechanics of Carbon Nanotubes and Their Composites
Flexoelectric Effect at the Nanoscale
Mechanical Properties of Nanostructured Metals: Molecular Dynamics Studies
Processes in Nano-Length-Scale Copper Crystal Under Dynamic Loads: A -Molecular Dynamics Study
Understanding Fracture and Fatigue at the Chemical Bond Scale: Potential of Raman Spectroscopy
Atomistic Modeling of Radiation Damage in Metallic Alloys
Monte Carlo Simulations of Precipitation Under Irradiation
Mechanics of Auxetic Materials
Nanoindentation and Indentation Size Effects: Continuum Model and Atomistic Simulation
Continuum Theory for Deformable Interfaces/Surfaces with Multi-field Coupling
Contents Volume 2
Micromechanics
Interaction Between Stress and Diffusion in Lithium-Ion Batteries: Analysis of Diffusion-Induced Buckling of Nanowires
Dynamic Compressive Mechanical Behavior of Magnesium-Based Materials: Magnesium Single Crystal, Polycrystalline Magnesium, and Magnesium Alloy
Micropillar Mechanics of Sn-Based Intermetallic Compounds
Micro-mechanics in Electrochemical Systems
Fiber Reinforced Ceramic Matrix Composites: A Probabilistic Micromechanics-Based Approach
Micromechanics of Polymeric Materials in Aggressive Environments
Crack Paths in Graded and Layered Structures
Micromechanics Modeling of Creep Fracture of High-Temperature Ceramics
Modeling of Multilayered Disc Subjected to Biaxial Flexure Tests
Micromechanics of Dual-Phase Steels: Deformation, Damage, and Fatigue
Defect Accumulation in Nanoporous Wear-Resistant Coatings Under Collective Recrystallization: Simulation by Hybrid Cellular Automaton Method
Multiscale Fatigue Crack Growth Modeling for Welded Stiffened Panels
Dislocation Density-Based Modeling of Crystal Plasticity Finite Element Analysis
Competing Grain Boundary and Interior Deformation Mechanisms with Varying Sizes
Multiscale Translation-Rotation Plastic Flow in Polycrystals
Micromechanics of Hierarchical Materials: Modeling and Perspectives
Modelling the Behavior of Complex Media by Jointly Using Discrete and Continuum Approaches
Spectral Solvers for Crystal Plasticity and Multi-physics Simulations
Interface Delamination Analysis of Dissimilar Materials: Application to Thermal Barrier Coatings
Contents Volume 3
Macromechanics
Smoothed Particle Hydrodynamics for Ductile Solid Continua
Simulation of Crack Propagation Under Mixed-Mode Loading
Relaxation Element Method in Mechanics of Deformable Solid
Damping Characteristics of Shape Memory Alloys on Their Inherent and Intrinsic Internal Friction
Application of Homogenization of Material Properties
Fatigue Behavior of 9–12% Cr Ferritic-Martensitic Steel
Coupling of Discrete and Continuum Approaches in Modeling the Behavior of Materials
Numerical Simulation of Material Separation Using Cohesive Zone Models
Current Applications of Finite Element Methods in Dentistry
Elastic-Plastic and Quasi-Brittle Fracture
Coupling Models of New Material Synthesis in Modern Technologies
Simulation of Fracture Behavior of Weldments
Measurement and Applications
Very High Cycle Fatigue
High Temperature Mechanical Testing of Metals
Microelectromechanical Systems (MEMS)-Based Testing of Materials
Nanoindentation for Testing Material Properties
3D/4D X-Ray Microtomography: Probing the Mechanical Behavior of Materials
Mechanical Testing of Single Fibers
Stress Measurement in Thin Films Using Wafer Curvature: Principles and Applications
Testing of Foams
Crack-Dislocation Interactions Ahead of a Crack Tip
In-Situ Nanomechanical Testing in Electron Microscopes
Deformation Measurement for Multiscale and Multifield Problems Using the Digital Image Correlation Method
High Temperature Nanomechanical Testing
The Sliding Wear Response of High-Performance Cermets
Electromechanical Coupling of Botanic Cells: Theory and Applications
Additive Manufacturing of Multidirectional Preforms and Composites: Microstructural Design, Fabrication, and Characterization