Topology Design Methods for Structural Optimization
Autor: | Osvaldo M. Querin, Mariano Victoria, Cristina Alonso Gordoa, Rubén Ansola, Pascual Martí |
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EAN: | 9780080999890 |
eBook Format: | ePUB/PDF |
Sprache: | Englisch |
Produktart: | eBook |
Veröffentlichungsdatum: | 09.06.2017 |
Kategorie: | |
Schlagworte: | 2D-3D continuum BESO CAO Compliance-based optimization Compliant mechanisms Computer Aided Design Crunching mechanisms Design tools Digital design ESO Evolutionary algorithm Fixed grid Fully Stressed Design Fully stressed design (FSD) G |
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Topology Design Methods for Structural Optimization provides engineers with a basic set of design tools for the development of 2D and 3D structures subjected to single and multi-load cases and experiencing linear elastic conditions. Written by an expert team who has collaborated over the past decade to develop the methods presented, the book discusses essential theories with clear guidelines on how to use them. Case studies and worked industry examples are included throughout to illustrate practical applications of topology design tools to achieve innovative structural solutions. The text is intended for professionals who are interested in using the tools provided, but does not require in-depth theoretical knowledge. It is ideal for researchers who want to expand the methods presented to new applications, and includes a companion website with related tools to assist in further study. - Provides design tools and methods for innovative structural design, focusing on the essential theory - Includes case studies and real-life examples to illustrate practical application, challenges, and solutions - Features accompanying software on a companion website to allow users to get up and running fast with the methods introduced - Includes input from an expert team who has collaborated over the past decade to develop the methods presented
Osvaldo M. Querin is Associate Professor in the School of Mechanical Engineering at the University of Leeds in the UK. He is Senior Member of the American Institute of Aeronautics and Astronautics (AIAA), Fellow of the Royal Aeronautical Society (FRAeS) and secretary of the Association for Structural and Multidisciplinary Optimization in UK (ASMO-UK). He has taught: aerospace flight mechanics, aerospace structures, aircraft design, design optimization, finite element analysis, rotary wing aircraft and structural analysis. His research interests lie in structural topology optimization, having been instrumental in the development of the Bi-directional ESO (BESO), Sequential Element Rejection and Addition (SERA) and Isolines/Isosurfaces Topology Design (ITD) methods of topology optimisation. He has published 8 edited books, 3 book chapters, 52 journal and 87 conference publications. Resent research projects are: A biomimetic, self-tuning, fully adaptable smart lower limb prosthetics with energy recover; Carbon fibre tape spring for self-deploying space structures; Development of an automated structural optimisation process for small aerospace parts; and Advanced Lattice Structures for Composite Airframes (ALaSCA).
Osvaldo M. Querin is Associate Professor in the School of Mechanical Engineering at the University of Leeds in the UK. He is Senior Member of the American Institute of Aeronautics and Astronautics (AIAA), Fellow of the Royal Aeronautical Society (FRAeS) and secretary of the Association for Structural and Multidisciplinary Optimization in UK (ASMO-UK). He has taught: aerospace flight mechanics, aerospace structures, aircraft design, design optimization, finite element analysis, rotary wing aircraft and structural analysis. His research interests lie in structural topology optimization, having been instrumental in the development of the Bi-directional ESO (BESO), Sequential Element Rejection and Addition (SERA) and Isolines/Isosurfaces Topology Design (ITD) methods of topology optimisation. He has published 8 edited books, 3 book chapters, 52 journal and 87 conference publications. Resent research projects are: A biomimetic, self-tuning, fully adaptable smart lower limb prosthetics with energy recover; Carbon fibre tape spring for self-deploying space structures; Development of an automated structural optimisation process for small aerospace parts; and Advanced Lattice Structures for Composite Airframes (ALaSCA).