Khalifa University Library 

Practical finite element analysis for mechanical engineers / Dominique Madier.

By: Madier, Dominique [author]Publisher: [Les Cedres, Quebec] : FEA Academy, [2020]Copyright date: �2020Edition: First editionDescription: 639 pages ; 29 cmContent type: text Media type: unmediated Carrier type: volumeISBN: 9781999047504; 1999047508Subject(s): Finite element method | Structural engineering | Mechanical engineering | structural engineering | Finite element method | Structural engineeringLOC classification: TA347 | .M24 P6 2020Summary: (S0 (BEngineers, in various industries all over the world, increasingly use Finite Element Analysis (FEA) to obtain solutions to problems that cannot be solved with classical methods. However, to do so, FEA analysts must employ proper modeling techniques; otherwise, their solutions may be incorrect. While there is much information in published literature regarding the theory of the finite element method, there is little on practical FEA modeling techniques for mechanical engineers. Engineers often learn basic FEA rules that are presented in textbooks, but the vast majority learn FEA through years of experience developing finite element models. This book offers the best practical methods and guidelines available for the development and validation of finite element models. Its objective is to provide mechanical structural engineers with the keys to developing accurate and reliable finite element models by avoiding the most frequent errors. (S1(B--
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General Collection TA347 .M24 P6 2020 (Browse shelf (Opens below)) Checked out 21/12/2021 1003002
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(S0 (BEngineers, in various industries all over the world, increasingly use Finite Element Analysis (FEA) to obtain solutions to problems that cannot be solved with classical methods. However, to do so, FEA analysts must employ proper modeling techniques; otherwise, their solutions may be incorrect. While there is much information in published literature regarding the theory of the finite element method, there is little on practical FEA modeling techniques for mechanical engineers. Engineers often learn basic FEA rules that are presented in textbooks, but the vast majority learn FEA through years of experience developing finite element models. This book offers the best practical methods and guidelines available for the development and validation of finite element models. Its objective is to provide mechanical structural engineers with the keys to developing accurate and reliable finite element models by avoiding the most frequent errors. (S1(B--

Donation from Alia-June 2021