Nanomechanics and Micromechanics
Generalized Models and Nonclassical Engineering Approaches
- 256 pages
- English
- ePUB (mobile friendly)
- Available on iOS & Android
Nanomechanics and Micromechanics
Generalized Models and Nonclassical Engineering Approaches
About This Book
This volume enables readers to interpret and predict the effective mechanical properties of existing and emerging composites through modeling and design. The book addresses that materials and structures with small-scale dimensions do not behave in the same manner as their bulk counterparts. Once the dimensions of the materials are reduced to the micron and sub-micron range, their properties are subject to significant change. Thus, mechanical properties will be varied and will depend on the sample size. In the meantime, due to the large surface-to-volume ration of small structures, deformation mechanisms are subject to change.
This volume integrates various approaches in micromechanics and nanomechanics into a unified mathematical framework, complete with coverage of both linear and nonlinear behaviors. It weaves together the basic concepts, mathematical fundamentals, and formulations of micromechanics and nanomechanics into a systemic approach for understanding and modeling the effective material behavior of composite materials.
While providing information on recent developments in the mathematical framework of micro- and nanomechanics, the volume addresses highly localized phenomena and a number of interesting applications. It also illustrates application of micromechanical and nanomechanical theory to design novel engineering materials.
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Table of contents
- Cover
- Half Title
- Title Page
- Copyright Page
- Series Page
- About the Editors
- Table of Contents
- Contributors
- Abbreviations
- Symbols
- Preface
- 1. Effects of Heat Treatment Conditions on Microstructure and Mechanical Properties of Halloysite Nanotube (HNT) Filled Epoxy Nanocomposites
- 2. Study of Properties of Nanostructures and Metal Nanocomposites on Their Basis
- 3. Possible Mechanism of Redox Synthesis of Metal/Carbon Nanocomposites Modified by p, d Elements
- 4. Simulation of Thermal Fields and Formation of Drops at Welding of Microsystems
- 5. Effect of Imposing Linear Particle Gradient on Creep Behavior in Composite Disc Having Hyperbolic Thickness
- 6. Microstructure and Properties of Fire-Resistant Polymeric Materials
- 7. Optimization of Wear Rate on the Low-Cost Reinforced-Hybrid Aluminum Metal Matrix Composite
- 8. Elastic-Plastic and Creep Transition in Structural Components
- 9. Comparative Analysis of Elastic-Plastic Stress Distributions in Human Femur Bone, Titanium, and Boron-Aluminum Fiber-Reinforced Composite for Surgical Implants and Prosthetic Equipment Design
- 10. Creep Modeling in a Composite Rotating Disc with Constant Thickness in the Presence of Residual Stress
- 11. Big Data Development Platform for Engineering Applications
- Index