Overview
This book presents the theory and computer implementations of the finite element method as applied to nonlinear problems of heat transfer and similar field problems, fluid mechanics (flows of incompressible fluids), and solid mechanics (elasticity, beams and plates). Both geometric as well as material nonlinearities are considered, and static and transient (i.e.: time-dependent) responses are studied. Although there exist a number of books on nonlinear finite elements that serve as good references for engineers who are familiar with the subject and wish to learn advanced topics or the latest developments, there is currently no book which is suitable as a textbook for a first course on nonlinear finite element analysis. This book fills the void in the market, providing a clear understanding of the concepts of nonlinear finite element analyses through detailed theoretical formulations and computer implementation steps, examples and exercises. In addition, the book serves as a prelude to more advanced books on the subject.
Synopsis
Reddy (mechanical engineering, Texas A&M U.) writes for graduate students in engineering and applied mathematics, or for those practicing in such fields as aerospace or the automotive industries. He works through the finite element method and then applies it to such situations as heat transfer in one and two dimensions, nonlinear bending of straight beams and elastic plates, and flows of viscous incompressible fluids. From there he moves to nonlinear analysis of time-dependent problems and then to finite element formulations of solid continua. The appendices describe solution procedures for liner and non-linear algebraic equations. Reddy provides exercises and references for general topics. Annotation ©2004 Book News, Inc., Portland, OR