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|a 20180949698
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|a 9781259861918 (e-ISBN)
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|a 1259861910 (e-ISBN)
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|a 9781259861901 (print-ISBN)
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|a 1259861902 (print-ISBN)
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|a (OCoLC)1065524414 (print ed.)
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|a IN-ChSCO
|b eng
|e rda
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|a eng
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|a 620.00151825
|2 23
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|a Reddy, J. N.,
|e author.
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|a Introduction to the Finite Element Method, Fourth Edition /
|c J. N. Reddy.
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|a 4th edition.
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|a New York, N.Y. :
|b McGraw-Hill Education,
|c [2019].
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|c ?2019.
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300 |
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|a 1 online resource (xxxiv, 782 pages) :
|b illustrations.
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|a text
|2 rdacontent
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|a computer
|2 rdamedia
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|a online resource
|2 rdacarrier
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|a Includes bibliographical references and index.
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|a Cover --
|t About the Author --
|t Title Page --
|t Copyright Page --
|t Dedication --
|t Contents --
|t Preface to the Fourth Edition --
|t Preface to the Third Edition --
|t Preface to the Second Edition --
|t Preface to the First Edition --
|t Symbols and Conversion Factors --
|t 1 General Introduction --
|t 1.1 Background --
|t 1.2 Mathematical Model Development --
|t 1.3 Numerical Simulations --
|t 1.4 The Finite Element Method --
|t 1.5 The Present Study --
|t 1.6 Summary --
|t Problems --
|t References for Additional Reading --
|t 2 Mathematical Preliminaries and Classical Variational Methods --
|t 2.1 General Introduction --
|t 2.2 Some Mathematical Concepts and Formulae --
|t 2.3 Energy and Virtual Work Principles --
|t 2.4 Integral Formulations of Differential Equations --
|t 2.5 Variational Methods --
|t 2.6 Equations of Continuum Mechanics --
|t 2.7 Summary --
|t Problems --
|t References for Additional Reading --
|t 3 1-D Finite Element Models of Second-Order Differential Equations --
|t 3.1 Introduction --
|t 3.2 Finite Element Analysis Steps --
|t 3.3 Finite Element Models of Discrete Systems --
|t 3.4 Finite Element Models of Continuous Systems --
|t 3.5 Axisymmetric Problems --
|t 3.6 Errors in Finite Element Analysis --
|t 3.7 Summary --
|t Problems --
|t References for Additional Reading --
|t 4 Applications to 1-D Heat Transfer and Fluid and Solid Mechanics Problems --
|t 4.1 Preliminary Comments --
|t 4.2 Heat Transfer --
|t 4.3 Fluid Mechanics --
|t 4.4 Solid and Structural Mechanics --
|t 4.5 Summary --
|t Problems --
|t References for Additional Reading --
|t 5 Finite Element Analysis of Beams and Circular Plates --
|t 5.1 Introduction --
|t 5.2 Euler?Bernoulli Beam Element --
|t 5.3 Timoshenko Beam Elements --
|t 5.4 Axisymmetric Bending of Circular Plates --
|t 5.5 Summary --
|t Problems --
|t References for Additional Reading --
|t 6 Plane Trusses and Frames --
|t 6.1 Introduction --
|t 6.2 Analysis of Trusses --
|t 6.3 Analysis of Plane Frame Structures --
|t 6.4 Inclusion of Constraint Conditions --
|t 6.5 Summary --
|t Problems --
|t References for Additional Reading --
|t 7 Eigenvalue and Time-Dependent Problems in 1-D --
|t 7.1 Introduction --
|t 7.2 Equations of Motion --
|t 7.3 Eigenvalue Problems --
|t 7.4 Transient Analysis --
|t 7.5 Summary --
|t Problems --
|t References for Additional Reading --
|t 8 Numerical Integration and Computer Implementation --
|t 8.1 Introduction --
|t 8.2 Numerical Integration --
|t 8.3 Computer Implementation --
|t 8.4 Applications of Program FEM1D --
|t 8.5 Summary --
|t Problems --
|t References for Additional Reading --
|t 9 Single-Variable Problems in Two Dimensions --
|t 9.1 Introduction --
|t 9.2 Boundary Value Problems --
|t 9.3 Modeling Considerations --
|t 9.4 Numerical Examples --
|t 9.5 Eigenvalue and Time-Dependent Problems --
|t 9.6 Summary --
|t Problems --
|t References for Additional Reading --
|t 10 2-D Interpolation Functions, Numerical Integration, and Computer Implementation --
|t 10.1 Introduction --
|t 10.2 2-D Element Library --
|t 10.3 Numerical Integration --
|t 10.4 Modeling Considerations --
|t 10.5 Computer Implementation and FEM2D --
|t 10.6 Summary --
|t Problems --
|t References for Additional Reading --
|t 11 Flows of Viscous Incompressible Fluids --
|t 11.1 Introduction --
|t 11.2 Governing Equations --
|t 11.3 Velocity?Pressure Formulation --
|t 11.4 Penalty Function Formulation --
|t 11.5 Computational Aspects --
|t 11.6 Numerical Examples --
|t 11.7 Summary --
|t Problems --
|t References for Additional Reading --
|t 12 Plane Elasticity --
|t 12.1 Introduction --
|t 12.2 Governing Equations --
|t 12.3 Virtual Work and Weak Formulations --
|t 12.4 Finite Element Model --
|t 12.5 Elimination of Shear Locking in Linear Elements --
|t 12.6 Numerical Examples --
|t 12.7 Summary --
|t Problems --
|t References for Additional Reading --
|t 13 3-D Finite Element Analysis --
|t 13.1 Introduction --
|t 13.2 Heat Transfer --
|t 13.3 Flows of Viscous Incompressible Fluids --
|t 13.4 Elasticity --
|t 13.5 Element Interpolation Functions and Numerical Integration --
|t 13.6 Numerical Examples --
|t 13.7 Summary --
|t Problems --
|t References for Additional Reading --
|t Index --
|t A --
|t B --
|t C --
|t D --
|t E --
|t F --
|t G --
|t H --
|t I --
|t J --
|t K --
|t L --
|t M --
|t N --
|t O --
|t P --
|t Q --
|t R --
|t S --
|t T --
|t U --
|t V --
|t W --
|t Y --
|t Z.
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520 |
3 |
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|a A fully updated introduction to the principles and applications of the finite element method. This authoritative and thoroughly revised and self-contained classic mechanical engineering textbook offers a broad-based overview and applications of the finite element method. This revision updates and expands the already large number of problems and worked-out examples and brings the technical coverage in line with current practices. You will get details on non-traditional applications in bioengineering, fluid and thermal sciences, and structural mechanics. Written by a world-renowned mechanical engineering researcher and author, An Introduction to the Finite Element Method, Fourth Edition, teaches, step-by-step, how to determine numerical solutions to equilibrium as well as time-dependent problems from fluid and thermal sciences and structural mechanics and a host of applied sciences.. Beginning with the governing differential equations, the book presents a systematic approach to the derivation of weak-forms (integral formulations), interpolation theory, finite element equations, solution of problems from fluid and thermal sciences and structural mechanics, computer implementation. The author provides a solutions manual as well as computer programs that are available for download. Features updated problems and fully worked-out solutions. Contains downloadable programs that can be applied and extended to real-world situations. Written by a highly-cited mechanical engineering researcher and well-respected author.
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530 |
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|a Also available in print edition.
|
533 |
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|a Electronic reproduction.
|b New York, N.Y. :
|c McGraw Hill,
|d 2019.
|n Mode of access: World Wide Web.
|n System requirements: Web browser.
|n Access may be restricted to users at subscribing institutions.
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538 |
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|a Mode of access: Internet via World Wide Web.
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546 |
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|a In English.
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588 |
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|a Description based on e-Publication PDF.
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650 |
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0 |
|a Finite element method.
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655 |
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0 |
|a Electronic books.
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776 |
1 |
8 |
|i Print version:
|t Introduction to the Finite Element Method,
|b Fourth Edition,
|d New York, N.Y. : McGraw Hill,
|c [2019],
|z 9781259861901
|
856 |
4 |
0 |
|u https://accessengineeringlibrary.uam.elogim.com/content/book/9781259861901
|z Texto completo
|