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Title:
Nanoengineering of Structural, Functional and Smart Materials |
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Division: Nano-related / CRC Press / 英文版 |
Author/Editor: Mark J. Schulz, Ajit D. Kelkar, Mannur J. Sundaresan Star:  |
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ISBN: 0849316537 |
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Introduce Date: 2007年06月03日15:26 , Release Date: 2007年06月03日16:10 |
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Introducer: stellarlight , Rate: 15/341 |
| Format: pdf(editorial) Download |
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| Appraiser: yxzhou2001 | Grade: +1 | Reason: ( 这本书很棒 ) | | | Appraiser: wnwang | Grade: +5 | Reason: ( 这本书很棒 ) | |
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| Description: |
Authors:
Mark J. Schulz University of Cincinnati, Ohio, USA
Ajit D. Kelkar North Carolina A&T State University, Greensboro, USA
Mannur J. Sundaresan North Carolina A&T State University, Greensboro, USA
Publisher: CRC Press
ISBN: 9780849316531
ISBN 10: 0849316537
Publication Date: 8/29/2005
Number of Pages: 736
Description:
Compiles cutting edge research for the synthesis, modeling, simulation, performance evaluation, and characterization of nanoscale materials
Explores novel nanotechnology and nanoengineering applications in the development of advanced structural, electronic, biosensor. and other types of materials
Provides background on barrier problems and ways to produce high-return nanotechnology
Addresses fundamental areas considered critical to combining nanoscale materials and chemical and evolutionary processes found in nature
Highlights the development of commercial applications in composite materials, electronics, biosensing, and smart materials
Includes exercises at the end of each chapter
In chapters contributed by 24 university & government laboratories, Nanoengineering of Structural, Functional, and Smart Materials combines wide-ranging research aimed at the development of multifunctional materials that are strong, lightweight, and versatile. This book explores promising and diverse approaches to the design of nanoscale materials and presents concepts that integrate mechanical, electrical, electrochemical, polarization, optical, thermal, and biomimetic functions with nanoscale materials to support the development of polymer composites, thin films, fibers, pultruded materials, and smart materials having a superior combination of properties.
Interrelating the many different aspects of nanoscience vital to developing new material systems, this book is organized into three parts that cover the major areas of focus: synthesis, manufacturing techniques, and modeling. The book defines functional materials and discusses techniques designed to improve material properties, durability, multifunctionality, and adaptability. It also examines sensors and actuators fabricated from nanostructured microdevices for structural health and performance monitoring. Shifting its focus to nanomechanics and the modeling of nanoscale particles, the book discusses vibration properties, thin films, and pulse laser deposition, low cost manufacturing of ceramic composites, hybrid nanocomposites, and various types of nanotubes. The book combines atomistic modeling with molecular dynamics simulations to clarify design considerations and discusses coupling between atomistic models and classical continuum mechanics models. The authors also advocate the current and potential development of commercial applications, such as nanocoatings to create "artificial skin" and functionalized nanotubes used to enhance the properties of composite materials.
Nanoengineering of Structural, Functional, and Smart Materials provides an overview of current trends and cutting-edge research in the area of nanoengineered materials. It offers new directions for the production of functionally tailored materials that can self-monitor their health and provide enduring performance.
Contents:
01 Introduction to Nanoengineering
PART 1 Synthesis of Nanoscale Materials
02 Design of Nanostructured Materials
03 Carbon Nanotubes and Bismuth Nanowires
04 Nanobelts and Nanowires of Functional Oxides
05 Advances in Chemical Vapor Deposition of Carbon Nanotubes
06 Self-Assembled Au Nanodots in a ZnO Matrix: A Novel Way to Enhance Electrical and Optical Characteristics of ZnO Films
07 Synthesis of Boron Nitride Nanotubes Using a Ball-Milling and Annealing Method
PART 2 Manufacturing Using Nanoscale Materials
08 Plasma Deposition of Ultra-Thin Functional Films on Nanoscale Materials
09 Structural Nanocomposites
10 Synthesis and Characterization of Metal-Ceramic Thin-Film Nanocomposites with Improved Mechanical Properties
11 Macroscopic Fibers of Single-Walled Carbon Nanotubes
12 Carbon Nanofiber and Carbon Nanotube/Polymer Composite Fibers and Films
13 Surface Patterning Using Self-Assembled Monolayers: A Bottom-Up Approach to the Fabrication of Microdevices
14 Enhancement of the Mechanical Strength of Polymer-Based Composites Using Carbon Nanotubes
15 Nanoscale Intelligent Materials and Structures
16 Thermal Properties and Microstructures of Polymer Nanostructured Materials
17 Manufacturing, Mechanical Characterization, and Modeling of a Pultruded Thermoplastic Nanocomposite
PART 3 Modeling of Nanoscale and Nanostructured Materials
18 Nanomechanics
19 Continuum and Atomistic Modeling of Thin Films Subjected to Nanoindentation
20 Synthesis, Optimization, and Characterization of AlN/TiN Thin Film Heterostructures
21 Polarization in Nanotubes and Nanotubular Structures
22 Multiscale Modeling of Stress Localization and Fracture in Nanocrystalline Metallic Materials
23 Modeling of Carbon Nanotube/Polymer Composites
24 Introduction to Nanoscale, Microscale, and Macroscale Heat Transport: Characterization and Bridging of Space and Time Scales
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