The finite element method for solid and structural mechanics / O.C. Zienkiewicz, Previously UNESCO Professor of Numerical Methods in Engineering, International Centre for Numerical Methods in Engineering, Barcelona, Spain, Previously Director of the Institute for Numerical Methods in Engineering, University of Whales, Swansea, UK, R.L. Taylor, Professor in the Graduate School, Department of Civil and Environmental Engineering, University of California at Berkeley, CA, USA, D.D. Fox, Dassault Systémes SIMULIA, Providence, RI, USA.
Material type:
TextPublisher: Amsterdam ; Boston : Elsevier/Butterworth-Heinemann, [2014]Copyright date: ©2014Edition: 7th edDescription: xxxi, 624 pages : illustrations ; 25 cmContent type: text Media type: unmediated Carrier type: volumeISBN: 9781856176347 (hbk.); 1856176347 (hbk.)Subject(s): Continuum mechanics -- Mathematics | Structural analysis (Engineering) -- Mathematics | Finite element methodDDC classification: 624.171 LOC classification: TA640.2 | .Z5 2014Summary: The Finite Element Method for Solid and Structural Mechanics is the key text and reference for engineers, researchers and senior students dealing with the analysis and modeling of structures, from large civil engineering projects such as dams to aircraft structures and small engineered components. This edition brings a thorough update and rearrangement of the book's content, including new chapters on: Material constitution using representative volume elements Differential geometry and calculus on manifolds Background mathematics and linear shell theory Focusing on the core knowledge, mathematical and analytical tools needed for successful structural analysis and modeling, The Finite Element Method for Solid and Structural Mechanics is the authoritative resource of choice for graduate level students, researchers and professional engineers. A proven keystone reference in the library of any engineer needing to apply the finite element method to solid mechanics and structural design. Founded by an influential pioneer in the field and updated in this seventh edition by an author team incorporating academic authority and industrial simulation experience. Features new chapters on topics including material constitution using representative volume elements, as well as consolidated and expanded sections on rod and shell models -- Source other than Library of Congress.
| Item type | Current location | Home library | Call number | Status | Date due | Barcode | Item holds |
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Book
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School of Civil and Environmental Engineering (SCEE) | School of Civil and Environmental Engineering (SCEE) | 624.171 ZIE (Browse shelf) | Available | NIT-13673 |
Includes bibliographical references and indexes.
The Finite Element Method for Solid and Structural Mechanics is the key text and reference for engineers, researchers and senior students dealing with the analysis and modeling of structures, from large civil engineering projects such as dams to aircraft structures and small engineered components. This edition brings a thorough update and rearrangement of the book's content, including new chapters on: Material constitution using representative volume elements Differential geometry and calculus on manifolds Background mathematics and linear shell theory Focusing on the core knowledge, mathematical and analytical tools needed for successful structural analysis and modeling, The Finite Element Method for Solid and Structural Mechanics is the authoritative resource of choice for graduate level students, researchers and professional engineers. A proven keystone reference in the library of any engineer needing to apply the finite element method to solid mechanics and structural design. Founded by an influential pioneer in the field and updated in this seventh edition by an author team incorporating academic authority and industrial simulation experience. Features new chapters on topics including material constitution using representative volume elements, as well as consolidated and expanded sections on rod and shell models -- Source other than Library of Congress.
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