Numerical Methods in Mechanics of Materials: With Applications from Nano to Macro Scales

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Ken Chong Arthur Boresi

Numerical Methods in Mechanics of Materials

With Applications from Nano to Macro Scales

Ken Chong, Arthur Boresi, Sunil Saigal , James Lee

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English

CRC Press
30 September 2020

Materials science; Civil engineering, surveying & building; Environmental science, engineering & technology

In the dynamic digital age, the widespread use of computers has transformed engineering and science. A realistic and successful solution of an engineering problem usually begins with an accurate physical model of the problem and a proper understanding of the assumptions employed. With computers and appropriate software we can model and analyze complex physical systems and problems.

However, efficient and accurate use of numerical results obtained from computer programs requires considerable background and advanced working knowledge to avoid blunders and the blind acceptance of computer results. This book provides the background and knowledge necessary to avoid these pitfalls, especially the most commonly used numerical methods employed in the solution of physical problems. It offers an in-depth presentation of the numerical methods for scales from nano to macro in nine self-contained chapters with extensive problems and up-to-date references, covering:

Trends and new developments in simulation and computation

Weighted residuals methods

Finite difference methods

Finite element methods

Finite strip/layer/prism methods

Boundary element methods

Meshless methods

Molecular dynamics

Multiphysics problems

Multiscale methods

By: Ken Chong, Arthur Boresi, Sunil Saigal, James Lee
Imprint: CRC Press
Country of Publication: United Kingdom
Dimensions: Height: 254mm, Width: 178mm,
Weight: 625g
ISBN: 9780367886257
ISBN 10: 0367886251
Pages: 340
Publication Date: 30 September 2020
Audience: College/higher education , Primary
Format: Paperback
Publisher's Status: Active

The Role of Numerical Methods in Engineering. Numerical Analysis and Weighted Residuals. Finite Difference Methods. The Finite Element Method. Specialized Methods. The Boundary Element Method. Meshless Methods of Analysis. Multiphysics in Molecular Dynamics Simulation. Multiscale Modeling from Atoms to Genuine Continuum.

Ken P. Chong was the former Interim Division Director, Engineering Advisor, and Program Director of Structural Systems, Mechanics and Materials at the National Science Foundation (NSF), 1989 - 2009. Currently he is a Research Professor at George Washington University. He earned a Ph.D. in Engineering Mechanics from Princeton University in 1969. He specializes in solid mechanics and materials, computational mechanics, nano-mechanics, smart structures and structural mechanics. He has been the principal investigator of over 20 federally funded research projects (from NSF, DOD, DOE, DOI, etc). He was a senior research engineer with the National Steel Corp. for 5 years after graduation from Princeton. After that he was a professor for 15 years at a state university. He has published 200 technical papers, authored 4 textbooks on engineering mechanics including Elasticity in Engineering Mechanics; Approximate Solution Methods in Engineering Mechanics, and edited 10 books including University Programs in Computer-Aided Engineering, Design, and Manufacturing; Materials for the New Millennium; Modeling and Simulation-based Life-cycle Engineering. He was the editor of the Elsevier Journal of Thin-Walled Structures, 1987-2013. He is co-editor of the UK Journal of Smart and Nano Materials, a CRC/Spon book series on structures as well as serving on several editorial boards. He has given over 50 keynote lectures at major conferences, the Mindlin, Sadowsky and Raouf Lectures, received awards including the fellow of ASME, American Academy of Mechanics, SEM, and United States Association for Computational Mechanics; Edmund Friedman Professional Recognition Award; Honorary Doctorate, Shanghai University; Honorary Professor, Harbin Institute of Technology; NCKU Distinguished Alumnus, Distinguished Member, ASCE; NSF highest Distinguished Service Award, AWU-DOE Outstanding Academic and Professional Achievement Award, and the ASME Bel

Reviews for Numerical Methods in Mechanics of Materials: With Applications from Nano to Macro Scales

"""The book includes detailed descriptions of trending materials modeling methods such as concurrent multiscale methods and molecular dynamics methods. The authors explain well how these methods can be used to model materials at very fine scales and improve predictions compared to conventional approaches. The description contains enough numerical implementation details to allow students, engineers and researchers interested in high fidelity materials modeling to try the methods presented in the book."" -- Wing Kam Liu, Northwestern University, USA ""This is a one-of-a-kind book and good for numerical methods to solve problems in mechanics of materials, from the nanoscale to the macroscale."" -- Shaofan Li, University of California, Berkeley, USA ""The book would be of greatest use for practicing engineers or graduate students in mechanical engineering, applied mechanics, applied physics, materials science, and related fields."" --J. Lambropoulos, University of Rochester in Choice Connect"