Overview
- Extensive numerical methods for computing design sensitivity are included in the text for practical application and software development
- The numerical method allows integration of CAD-FEA-DSA software tools, so that design optimization can be carried out using CAD geometric models instead of FEA models
- This capability allows integration of CAD-CAE-CAM so that optimized designs can be manufactured effectively
Part of the book series: Mechanical Engineering Series (MES)
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Table of contents (7 chapters)
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Design Sensitivity Analysis of Nonlinear Structural Systems
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Numerical Implementation and Applications
Keywords
About this book
Structural design sensitivity analysis concerns the relationship between design variables available to the design engineer and structural responses determined by the laws of mechanics. The dependence of response measures such as displacement, stress, strain, natural frequency, buckling load, acoustic response, frequency response, noise-vibration-harshness (NVH), thermo-elastic response, and fatigue life on the material property, sizing, component shape, and configuration design variables is defined through the governing equations of structural mechanics. In this 2-volume set, first- and second- order design sensitivity analyses are presented for static and dynamics responses of both linear and nonlinear elastic structural systems, including elasto-plastic and frictional contact problems.
Book 2 covers design sensitivity analysis of nonlinear structural systems using continuum design sensitivity analysis methods. It also discusses practical design tools and applications; sizing and shape design parameterization, design velocity field computation, numerical implementation of the sensitivity for general-purpose code development, and various other practical design applications.
Reviews
From the reviews:
"This recent book … deals with all aspects of sensitivity analysis for structural systems. … One highlight is the elaboration on the differences in working with the reduced stiffness matrix and with the generalized stiffness matrix. … There are many other details that readers will appreciate when using the book … . The book is a welcome, up-to-date addition to the literature in the area and it is a must as a reference volume for any research group working in sensitivity analysis and design optimization." (Martin P. Bendsøe, Structural Multidisciplinary Optimization, Vol. 32, 2006)
Authors and Affiliations
About the authors
K. K. Choi is a Carver Professor of Mechanical Engineering at The University of Iowa. He teaches in the Mechanical and Industrial Engineering and the Applied Mathematical and Computational Sciences departments, and is a researcher in the Center for Computer-Aided Design. He has authored numerous publications and has twice won the ASME Best Paper Award.
N. H. Kim is an Assistant Professor in the Department of Mechanical and Aerospace Engineering at the University of Florida. His research area is in structural design optimization, design sensitivity analysis, nonlinear structural mechanics, structural-acoustics, and the mesh-free method.
Both authors are members of several industry organizations including the American Society of Mechanical Engineers, the Korean-American Scientists and Engineers Association and the International Society for Structural and Multidisciplinary Optimization.
Bibliographic Information
Book Title: Structural Sensitivity Analysis and Optimization 2
Book Subtitle: Nonlinear Systems and Applications
Authors: Kyung K. Choi, Nam Ho Kim
Series Title: Mechanical Engineering Series
DOI: https://doi.org/10.1007/b138895
Publisher: Springer New York, NY
eBook Packages: Engineering, Engineering (R0)
Copyright Information: Springer-Verlag New York 2005
Hardcover ISBN: 978-0-387-23336-9Published: 08 December 2004
Softcover ISBN: 978-1-4419-2010-2Published: 01 December 2010
eBook ISBN: 978-0-387-27306-8Published: 22 December 2006
Series ISSN: 0941-5122
Series E-ISSN: 2192-063X
Edition Number: 1
Number of Pages: XX, 326
Number of Illustrations: 100 b/w illustrations
Topics: Solid Mechanics, Mechanical Engineering, Engineering Design, Automotive Engineering, Civil Engineering