Macro to Nano-scale Inelastic Deformation and Failure of Materials and Multi-scale Modeling
Author : Akhtar S. Khan
Publisher :
Page : pages
File Size : 40,47 MB
Release : 2011
Category :
ISBN :
Multiscale Analysis of Deformation and Failure of Materials
Author : Jinghong Fan
Publisher : John Wiley & Sons
Page : 510 pages
File Size : 46,51 MB
Release : 2011-06-28
Category : Technology & Engineering
ISBN : 111995648X
Book Description
Presenting cutting-edge research and development within multiscale modeling techniques and frameworks, Multiscale Analysis of Deformation and Failure of Materials systematically describes the background, principles and methods within this exciting new & interdisciplinary field. The author’s approach emphasizes the principles and methods of atomistic simulation and its transition to the nano and sub-micron scale of a continuum, which is technically important for nanotechnology and biotechnology. He also pays close attention to multiscale analysis across the micro/meso/macroscopy of a continuum, which has a broad scope of applications encompassing different disciplines and practices, and is an essential extension of mesomechanics. Of equal interest to engineers, scientists, academics and students, Multiscale Analysis of Deformation and Failure of Materials is a multidisciplinary text relevant to those working in the areas of materials science, solid and computational mechanics, bioengineering and biomaterials, and aerospace, automotive, civil, and environmental engineering. Provides a deep understanding of multiscale analysis and its implementation Shows in detail how multiscale models can be developed from practical problems and how to use the multiscale methods and software to carry out simulations Discusses two interlinked categories of multiscale analysis; analysis spanning from the atomistic to the micro-continuum scales, and analysis across the micro/meso/macro scale of continuum.
Trends in Nanoscale Mechanics
Author : Vasyl Michael Harik
Publisher : Springer Science & Business Media
Page : 241 pages
File Size : 32,10 MB
Release : 2013-03-09
Category : Technology & Engineering
ISBN : 940170385X
Book Description
An outstanding feature of this book is a collection of state-of-the-art reviews written by leading researchers in the nanomechanics of carbon nanotubes, nanocrystalline materials, biomechanics and polymer nanocomposites. The structure and properties of carbon nanotubes, polycrystalline metals, and coatings are discussed in great details. The book is an exceptional resource on multi-scale modelling of metals, nanocomposites, MEMS materials and biomedical applications. An extensive bibliography concerning all these topics is included. Highlights on bio-materials, MEMS, and the latest multi-scale methods (e.g., molecular dynamics and Monte Carlo) are presented. Numerous illustrations of inter-atomic potentials, nanotube deformation and fracture, grain rotation and growth in solids, ceramic coating structures, blood flows and cell adhesion are discussed. This book provides a comprehensive review of latest developments in the analysis of mechanical phenomena in nanotechnology and bio-nanotechnology.
Micromechanics and Nanoscale Effects
Author : Vasyl Michael Harik
Publisher : Springer Science & Business Media
Page : 251 pages
File Size : 41,50 MB
Release : 2012-12-06
Category : Technology & Engineering
ISBN : 9400710135
Book Description
This volume consists of the state-of-the-art reports on new developments in micromechanics and the modeling of nanoscale effects, and is a companion book to the recent Kluwer volume on nanomechanics and mul- scale modeling (it is entitled Trends in Nanoscale Mechanics). The two volumes grew out of a series of discussions held at NASA Langley Research Center (LaRC), lectures and other events shared by many researchers from the national research laboratories and academia. The key events include the 2001 Summer Series of Round-Table Discussions on Nanotechnology at ICASE Institute (NASA LaRC) organized by Drs. V. M. Harik and M. D. Salas and the 2002 NASA LaRC Workshop on Multi-scale Modeling. The goal of these interactions was to foster collaborations between academic researchers and the ICASE Institute (NASA LaRC), a universi- based institute, which has pioneered world-class computational, theoretical and experimental research in the disciplines that are important to NASA. Editors gratefully acknowledge help of Ms. E. Todd (ICASE, NASA LaRC), the ICASE Director M. D. Salas and all reviewers, in particular, Dr. B. Diskin (ICASE/NIA, NASA LaRC), Prof. R. Haftka (University of Florida), Dr. V. M. Harik (ICASE/Swales Aerospace, NASA LaRC), Prof.
Multiscale Materials Modeling for Nanomechanics
Author : Christopher R. Weinberger
Publisher : Springer
Page : 554 pages
File Size : 15,71 MB
Release : 2016-08-30
Category : Technology & Engineering
ISBN : 3319334808
Book Description
This book presents a unique combination of chapters that together provide a practical introduction to multiscale modeling applied to nanoscale materials mechanics. The goal of this book is to present a balanced treatment of both the theory of the methodology, as well as some practical aspects of conducting the simulations and models. The first half of the book covers some fundamental modeling and simulation techniques ranging from ab-inito methods to the continuum scale. Included in this set of methods are several different concurrent multiscale methods for bridging time and length scales applicable to mechanics at the nanoscale regime. The second half of the book presents a range of case studies from a varied selection of research groups focusing either on a the application of multiscale modeling to a specific nanomaterial, or novel analysis techniques aimed at exploring nanomechanics. Readers are also directed to helpful sites and other resources throughout the book where the simulation codes and methodologies discussed herein can be accessed. Emphasis on the practicality of the detailed techniques is especially felt in the latter half of the book, which is dedicated to specific examples to study nanomechanics and multiscale materials behavior. An instructive avenue for learning how to effectively apply these simulation tools to solve nanomechanics problems is to study previous endeavors. Therefore, each chapter is written by a unique team of experts who have used multiscale materials modeling to solve a practical nanomechanics problem. These chapters provide an extensive picture of the multiscale materials landscape from problem statement through the final results and outlook, providing readers with a roadmap for incorporating these techniques into their own research.
From Microstructure Investigations to Multiscale Modeling
Author : Delphine Brancherie
Publisher : John Wiley & Sons
Page : 298 pages
File Size : 24,9 MB
Release : 2017-11-29
Category : Science
ISBN : 1119484472
Book Description
Mechanical behaviors of materials are highly influenced by their architectures and/or microstructures. Hence, progress in material science involves understanding and modeling the link between the microstructure and the material behavior at different scales. This book gathers contributions from eminent researchers in the field of computational and experimental material modeling. It presents advanced experimental techniques to acquire the microstructure features together with dedicated numerical and analytical tools to take into account the randomness of the micro-structure.
An Adaptive Multi-scale Computational Method for Modeling Nonlinear Deformation in Nanoscale Materials
Author : Wenming Wang
Publisher :
Page : 101 pages
File Size : 50,93 MB
Release : 2006
Category :
ISBN : 9781109836400
Book Description
In this dissertation a coupled multi-scale computational model for simulating nonlinear deformation processes in crystalline metals at finite temperatures is developed. The computational model uses the finite element method to model the coarse scale response of the material. The constitutive response in the finite element will be modeled through interatomic potentials acting on the underlying homogeneous crystal lattice that characterizes its nanostructure. An adaptive remeshing technique is proposed to automatically delineate regions of severe deformation where homogeneity of the microstructure/deformation is violated. In these regions the finite element will be replaced by a set of deformed atoms which interact with each other through the interatomic potential. The resulting coupled multi-scale model will be used to study defect generation and growth, through a computational nanoindentation experiment, in practical 2D and 3D problems.
Plasticity, Failure and Fatigue in Structural Materials - From Macro to Nano
Author : K. Jimmy Hsia
Publisher : Wiley
Page : 0 pages
File Size : 18,22 MB
Release : 2008-03-01
Category : Technology & Engineering
ISBN : 9780873397148
Book Description
This book contains papers from the symposium held to honor Professor Hael Mughrabi, who devoted 40 years of research to the mechanical behavior of materials. In particular, Professor Mughrabi performed fundamental studies on the mechanisms of plastic deformation and fatigue based on dislocation mechanics. Readers of this book will find research development in deformation and fatigue including very high cycle fatigue of advanced engineering materials. Particular emphasis is given to mechanical properties of nanomaterials, and to the behavior and processes at the nanoscale in engineering materials. Specific subjects include deformation and fracture mechanisms; single crystals; mathematical modeling; cyclic, static and dynamic loading; and damage evolution.
Multi-Scales Behaviour of Materials
Author : Moussa Karama
Publisher : Trans Tech Publications Ltd
Page : 250 pages
File Size : 21,56 MB
Release : 2011-12-22
Category : Technology & Engineering
ISBN : 303813726X
Book Description
Volume is indexed by Thomson Reuters BCI (WoS). This volume focuses on the development of methods, for predicting the behaviour of materials, so as to be able to design materials having specific properties. This requires a multi-scale material modeling framework that is based upon the fundamental laws of physics and links the electronic modeling hierarchy all the way from the atomistic and mesoscale modeling regimes up to macroscopic material behaviour. It is evident that such a framework cannot be based upon rigid formal parameterizations alone, but must emerge from a detailed understanding of the mechanistic behaviour of materials, a profound knowledge of material properties and metallurgical trends, and must take account of the processing of materials as the basis of dynamic structure/property relationships.
Opportunities in Protection Materials Science and Technology for Future Army Applications
Author : National Research Council
Publisher : National Academies Press
Page : 176 pages
File Size : 47,3 MB
Release : 2011-07-27
Category : Technology & Engineering
ISBN : 030921288X
Book Description
Armor plays a significant role in the protection of warriors. During the course of history, the introduction of new materials and improvements in the materials already used to construct armor has led to better protection and a reduction in the weight of the armor. But even with such advances in materials, the weight of the armor required to manage threats of ever-increasing destructive capability presents a huge challenge. Opportunities in Protection Materials Science and Technology for Future Army Applications explores the current theoretical and experimental understanding of the key issues surrounding protection materials, identifies the major challenges and technical gaps for developing the future generation of lightweight protection materials, and recommends a path forward for their development. It examines multiscale shockwave energy transfer mechanisms and experimental approaches for their characterization over short timescales, as well as multiscale modeling techniques to predict mechanisms for dissipating energy. The report also considers exemplary threats and design philosophy for the three key applications of armor systems: (1) personnel protection, including body armor and helmets, (2) vehicle armor, and (3) transparent armor. Opportunities in Protection Materials Science and Technology for Future Army Applications recommends that the Department of Defense (DoD) establish a defense initiative for protection materials by design (PMD), with associated funding lines for basic and applied research. The PMD initiative should include a combination of computational, experimental, and materials testing, characterization, and processing research conducted by government, industry, and academia.
