Mechanics of Structures: Variational and Computational Methods

Resoundingly popular in its first edition, the second edition of Mechanics of Structures: Variational and Computational Methods promises to be even more so, with broader coverage, expanded discussions, and a streamlined presentation.

The authors begin by describing the behavior of deformable solids through the differential equations for the strength of materials and the theory of elasticity. They next introduce variational principles, including mixed or generalized principles, and derive integral forms of the governing equations. Discussions then move to computational methods, including the finite element method, and these are developed to solve the differential and integral equations.

New in the second edition:

  • A one-dimensional introduction to the finite element method, complete with illustrations of numerical mesh refinement
  • Expansion of the use of Galerkin's method.
  • Discussion of recent developments in the theory of bending and torsion of thin-walled beams.
  • An appendix summarizing the fundamental equations in differential and variational form
  • Completely new treatment of stability, including detailed examples
  • Discussion of the principal values of geometric properties and stresses
  • Additional exercises

    As a textbook or as a reference, Mechanics of Structures builds a unified, variational foundation for structure mechanics, which in turn forms the basis for the computational solid mechanics so essential to modern engineering.
    • 1120987263
    Mechanics of Structures: Variational and Computational Methods

    Resoundingly popular in its first edition, the second edition of Mechanics of Structures: Variational and Computational Methods promises to be even more so, with broader coverage, expanded discussions, and a streamlined presentation.

    The authors begin by describing the behavior of deformable solids through the differential equations for the strength of materials and the theory of elasticity. They next introduce variational principles, including mixed or generalized principles, and derive integral forms of the governing equations. Discussions then move to computational methods, including the finite element method, and these are developed to solve the differential and integral equations.

    New in the second edition:

  • A one-dimensional introduction to the finite element method, complete with illustrations of numerical mesh refinement
  • Expansion of the use of Galerkin's method.
  • Discussion of recent developments in the theory of bending and torsion of thin-walled beams.
  • An appendix summarizing the fundamental equations in differential and variational form
  • Completely new treatment of stability, including detailed examples
  • Discussion of the principal values of geometric properties and stresses
  • Additional exercises

    As a textbook or as a reference, Mechanics of Structures builds a unified, variational foundation for structure mechanics, which in turn forms the basis for the computational solid mechanics so essential to modern engineering.
    • 84.99 In Stock
    Mechanics of Structures: Variational and Computational Methods

    Mechanics of Structures: Variational and Computational Methods

    Mechanics of Structures: Variational and Computational Methods
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    Mechanics of Structures: Variational and Computational Methods

    Mechanics of Structures: Variational and Computational Methods

    Overview

    Resoundingly popular in its first edition, the second edition of Mechanics of Structures: Variational and Computational Methods promises to be even more so, with broader coverage, expanded discussions, and a streamlined presentation.

    The authors begin by describing the behavior of deformable solids through the differential equations for the strength of materials and the theory of elasticity. They next introduce variational principles, including mixed or generalized principles, and derive integral forms of the governing equations. Discussions then move to computational methods, including the finite element method, and these are developed to solve the differential and integral equations.

    New in the second edition:

  • A one-dimensional introduction to the finite element method, complete with illustrations of numerical mesh refinement
  • Expansion of the use of Galerkin's method.
  • Discussion of recent developments in the theory of bending and torsion of thin-walled beams.
  • An appendix summarizing the fundamental equations in differential and variational form
  • Completely new treatment of stability, including detailed examples
  • Discussion of the principal values of geometric properties and stresses
  • Additional exercises

    As a textbook or as a reference, Mechanics of Structures builds a unified, variational foundation for structure mechanics, which in turn forms the basis for the computational solid mechanics so essential to modern engineering.

    • Product Details

    ISBN-13: 9781040061893
    Publisher: CRC Press
    Publication date: 12/26/2002
    Sold by: Barnes & Noble
    Format: eBook
    Pages: 912
    File size: 27 MB
    Note: This product may take a few minutes to download.

    About the Author

    Walter Wunderlich, Walter D. Pilkey

    Table of Contents

    Formulations for Linear Problems of Elasticity. Formulations for Dynamic and Stability Problems. Bars and Plates. Appendices.
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