Defect Structure in Nanomaterials

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  • Author : Jeno Gubicza
  • Publisher : Woodhead Publishing
  • Pages : 390 pages
  • ISBN : 9780081016602
  • Rating : /5 from reviews
CLICK HERE TO GET THIS BOOK >>>Defect Structure in Nanomaterials

Download or Read online Defect Structure in Nanomaterials full in PDF, ePub and kindle. this book written by Jeno Gubicza and published by Woodhead Publishing which was released on 01 June 2012 with total page 390 pages. We cannot guarantee that Defect Structure in Nanomaterials book is available in the library, click Get Book button and read full online book in your kindle, tablet, IPAD, PC or mobile whenever and wherever You Like. An expert in processing, microstructure, and mechanical properties of nanomaterials explores current scientific research and provides a detailed overview of a wide range of nanomaterials including metals, alloys, ceramics, diamond, and carbon nanotubes and their composites.

Defect Structure in Nanomaterials

Defect Structure in Nanomaterials
  • Author : Jeno Gubicza
  • Publisher : Woodhead Publishing
  • Release : 01 June 2012
GET THIS BOOK Defect Structure in Nanomaterials

An expert in processing, microstructure, and mechanical properties of nanomaterials explores current scientific research and provides a detailed overview of a wide range of nanomaterials including metals, alloys, ceramics, diamond, and carbon nanotubes and their composites.

Defect Structure and Properties of Nanomaterials

Defect Structure and Properties of Nanomaterials
  • Author : J Gubicza
  • Publisher : Woodhead Publishing
  • Release : 05 March 2017
GET THIS BOOK Defect Structure and Properties of Nanomaterials

Defect Structure and Properties of Nanomaterials: Second and Extended Edition covers a wide range of nanomaterials including metals, alloys, ceramics, diamond, carbon nanotubes, and their composites. This new edition is fully revised and updated, covering important advances that have taken place in recent years. Nanostructured materials exhibit unique mechanical and physical properties compared with their coarse-grained counterparts, therefore these materials are currently a major focus in materials science. The production methods of nanomaterials affect the lattice defect structure (vacancies, dislocations,

Defect Structure in Nanomaterials

Defect Structure in Nanomaterials
  • Author : J Gubicza
  • Publisher : Elsevier
  • Release : 01 June 2012
GET THIS BOOK Defect Structure in Nanomaterials

Nanomaterials exhibit unique mechanical and physical properties compared to their coarse-grained counterparts, and are consequently a major focus of current scientific research. Defect structure in nanomaterials provides a detailed overview of the processing methods, defect structure and defect-related mechanical and physical properties of a wide range of nanomaterials. The book begins with a review of the production methods of nanomaterials, including severe plastic deformation, powder metallurgy and electrodeposition. The lattice defect structures formed during the synthesis of nanomaterials are characterised

Characterization of Mechanical Deformation of Nanoscale Volumes

Characterization of Mechanical Deformation of Nanoscale Volumes
  • Author : Christopher R. Perrey,William M. Mook,C. B. Carter,William W. Gerberich,MINNESOTA UNIV MINNEAPOLIS Dept. of CHEMICAL ENGINEERING AND MATERIALS SCIENCE.
  • Publisher : Unknown
  • Release : 04 August 2021
GET THIS BOOK Characterization of Mechanical Deformation of Nanoscale Volumes

The mechanical properties of nanoscale volumes and their associated defect structure are key to many future applications in nanoengineered products. In this study techniques of mechanical testing and microscopy have been applied to better understand the mechanical behavior of nanoscale volumes. Nanoindentation has been used to investigate important mechanical material parameters such as the elastic modulus and hardness for single nanoparticles. New sample preparation methods must be developed to allow the necessary TEM characterization of the inherent and induced defect

Characterization of Nanoparticle Films and Structures Produced by Hypersonic Plasma Particle Deposition

Characterization of Nanoparticle Films and Structures Produced by Hypersonic Plasma Particle Deposition
  • Author : Christopher R. Perrey,Ryan Thompson,C. B. Carter,Ashok Gidwani,MINNESOTA UNIV MINNEAPOLIS Dept. of CHEMICAL ENGINEERING AND MATERIALS SCIENCE.
  • Publisher : Unknown
  • Release : 04 August 2021
GET THIS BOOK Characterization of Nanoparticle Films and Structures Produced by Hypersonic Plasma Particle Deposition

There is great potential for the use of nanostructures in numerous applications. Investigation of nanoparticle films and structures is an important area of research for the production of nanoengineered devices. However for these devices to become a reality, a production method that can yield high-rate synthesis of nanostructured powders is necessary. The hypersonic plasma particle deposition (HPPD) process has been shown to be capable of such high-rate production of nanoparticle films and structures. Versatile in its ability to manufacture nanoparticles

X Ray Line Profile Analysis in Materials Science

X Ray Line Profile Analysis in Materials Science
  • Author : Gubicza, Jen?
  • Publisher : IGI Global
  • Release : 31 March 2014
GET THIS BOOK X Ray Line Profile Analysis in Materials Science

X-ray line profile analysis is an effective and non-destructive method for the characterization of the microstructure in crystalline materials. Supporting research in the area of x-ray line profile analysis is necessary in promoting further developments in this field. X-Ray Line Profile Analysis in Materials Science aims to synthesize the existing knowledge of the theory, methodology, and applications of x-ray line profile analysis in real-world settings. This publication presents both the theoretical background and practical implementation of x-ray line profile analysis

X Ray Line Profile Analysis in Materials Science

X Ray Line Profile Analysis in Materials Science
  • Author : Jeno Gubicza,Jen Gubicza
  • Publisher : Engineering Science Reference
  • Release : 01 January 2014
GET THIS BOOK X Ray Line Profile Analysis in Materials Science

X-ray line profile analysis is an effective and non-destructive method for the characterization of the microstructure in crystalline materials. Supporting research in the area of x-ray line profile analysis is necessary in promoting further developments in this field. X-Ray Line Profile Analysis in Materials Science aims to synthesize the existing knowledge of the theory, methodology, and applications of x-ray line profile analysis in real-world settings. This publication presents both the theoretical background and practical implementation of x-ray line profile analysis

Amorphous Nanomaterials

Amorphous Nanomaterials
  • Author : Lin Guo
  • Publisher : John Wiley & Sons
  • Release : 01 June 2021
GET THIS BOOK Amorphous Nanomaterials

A valuable overview covering important fundamental and applicative aspects of amorphous nanomaterials! Amorphous nanomaterials are very important in non-crystalline solids, which have emerged as a new category of advanced materials. Compared to the crystalline counterpart, amorphous nanomaterials with isotropic nature always exhibit fast ion diffusion, relieved strain, and higher reactivity, enabling such materials to exhibit high performance in mechanics and catalysis, as well as other interesting properties. Amorphous Nanomaterials: Preparation, Characterization, and Applications covers the fundamental concept, synthesis, characterization, properties,

Characterization of Carbon Nanotube Based Composites under Consideration of Defects

Characterization of Carbon Nanotube Based Composites under Consideration of Defects
  • Author : Moones Rahmandoust,Majid R. Ayatollahi
  • Publisher : Springer
  • Release : 14 October 2015
GET THIS BOOK Characterization of Carbon Nanotube Based Composites under Consideration of Defects

This volume presents the characterization methods involved with carbon nanotubes and carbon nanotube-based composites, with a more detailed look at computational mechanics approaches, namely the finite element method. Special emphasis is placed on studies that consider the extent to which imperfections in the structure of the nanomaterials affect their mechanical properties. These defects may include random distribution of fibers in the composite structure, as well as atom vacancies, perturbation and doping in the structure of individual carbon nanotubes.

Nanomaterials

Nanomaterials
  • Author : Hideo Hosono,Yoshinao Mishima,Hideo Takezoe,Kenneth J.D. MacKenzie
  • Publisher : Elsevier
  • Release : 08 August 2006
GET THIS BOOK Nanomaterials

A research project at the Tokyo Institute of Technology – dedicated to fostering innovation in the field of nanomaterials – was selected as one of the 21st Century COE (Center of Excellence) programs. The achievements of this COE program, which builds on the strong tradition of materials science in the Institute, are summarized within this book. Nanomaterials: Research Towards Applications is divided into four main parts: Revolutionary Oxides State-of-the-Art Polymers Nanostructure Design for New Functions Nanostructure Architecture for Engineering Applications Each section

Structure and Multiscale Mechanics of Carbon Nanomaterials

Structure and Multiscale Mechanics of Carbon Nanomaterials
  • Author : Oskar Paris
  • Publisher : Springer
  • Release : 26 November 2015
GET THIS BOOK Structure and Multiscale Mechanics of Carbon Nanomaterials

This book provides a broad overview on the relationship between structure and mechanical properties of carbon nanomaterials from world-leading scientists in the field. The main aim is to get an in-depth understanding of the broad range of mechanical properties of carbon materials based on their unique nanostructure and on defects of several types and at different length scales. Besides experimental work mainly based on the use of (in-situ) Raman and X-ray scattering and on nanoindentation, the book also covers some

Defects and Diffusion in Semiconductors XIII

Defects and Diffusion in Semiconductors XIII
  • Author : David J. Fisher
  • Publisher : Trans Tech Publications Ltd
  • Release : 04 July 2011
GET THIS BOOK Defects and Diffusion in Semiconductors XIII

This thirteenth volume in the series covering the latest results in the field includes abstracts of papers which have appeared since the publication of Annual Retrospective XII (Volumes 303-304). As well as the over 300 semiconductor-related abstracts, the issue includes the original papers: “Effect of KCl Addition upon the Photocatalytic Activity of Zinc Sulphide” (D.Vaya, A.Jain, S.Lodha, V.K.Sharma, S.C.Ameta), “Localized Vibrational Mode in Manganese-Doped Zinc Sulphide and Cadmium Sulphide Nanoparticles” (M.Ragam, N.Sankar,

Magnetic Nanomaterials

Magnetic Nanomaterials
  • Author : Yanglong Hou,David J. Sellmyer
  • Publisher : John Wiley & Sons
  • Release : 12 June 2017
GET THIS BOOK Magnetic Nanomaterials

Timely and comprehensive, this book presents recent advances in magnetic nanomaterials research, covering the latest developments, including the design and preparation of magnetic nanoparticles, their physical and chemical properties as well as their applications in different fields, including biomedicine, magnetic energy storage, wave-absorbing and water remediation. By allowing researchers to get to the forefront developments related to magnetic nanomaterials in various disciplines, this is invaluable reading for the nano, magnetic, energy, medical, and environmental communities.

Defect Engineering

Defect Engineering
  • Author : Seyed Emad Rezaei
  • Publisher : Unknown
  • Release : 04 August 2021
GET THIS BOOK Defect Engineering

The advent of nanomaterials has opened a new avenue for designing and fabricating materials with unique properties, e.g., superior mechanical properties. Based on a common notion, the perfect structures are assumed to exhibit better mechanical properties, such as higher yield strength and Young's modulus. Therefore, researchers have devoted an extensive amount of time to decrease defect concentration by fabricating materials with the micro/nanoscale, e.g., nanowires (NWs) and nanobelts (NBs), to enhance the mechanical characteristics of the system.

Computational Nanoscience

Computational Nanoscience
  • Author : Elena Bichoutskaia
  • Publisher : Royal Society of Chemistry
  • Release : 09 June 2011
GET THIS BOOK Computational Nanoscience

Nanoscience is one of the most exciting areas of modern physical science as it encompasses a range of techniques rather than a single discipline. It stretches across the whole spectrum of science including: medicine and health, physics, engineering and chemistry. Providing a deep understanding of the behaviour of matter at the scale of individual atoms and molecules, it provides a crucial step towards future applications of nanotechnology. The remarkable improvements in both theoretical methods and computational techniques make it possible