David V. Wallerstein ...
424 pages - Publisher: Wiley-Interscience; 1st edition (November 19, 2001)
Language: English - ISBN-10: 0471395935 - ISBN-13: 978-0471395935
An insightful examination of the numerical methods used to develop finite element methods: A Variational Approach to Structural Analysis provides readers with the
underpinnings of the finite element method (FEM) while highlighting the
power and pitfalls of virtual methods. In an easy-to-follow, logical
format, this book gives complete coverage of the principle of virtual
work, complementary virtual work and energy methods, and static and
dynamic stability concepts.
The first two chapters prepare the
reader with preliminary material, introducing in detail the variational
approach used in the book as well as reviewing the equilibrium and
compatibility equations of mechanics. The next chapter, on virtual work,
teaches how to use kinematical formulations for the determination of
the required strain relationships for straight, curved, and thin walled
beams. The chapters on complementary virtual work and energy methods are
problem-solving chapters that incorporate Castigliano's first theorem,
the Engesser-Crotti theorem, and the Galerkin method. In the final
chapter, the reader is introduced to various geometric measures of
strain and revisits straight, curved, and thin walled beams by examining
them in a deformed geometry.
Based on nearly two decades of work on
the development of the world's most used FEM code, A Variational
Approach to Structural Analysis has been designed as a self-contained,
single-source reference for mechanical, aerospace, and civil engineering
professionals. The book's straightforward style also provides
accessible instruction for graduate students in aeronautical, civil,
mechanical, and engineering mechanics courses.