The Finite Element Method for Mechanics of Solids with ANSYS Applications

Title: The Finite Element Method for Mechanics of Solids with ANSYS Applications
Author: Ellis H. Dill
ISBN: 1439845832 / 9781439845837
Format: Hard Cover
Pages: 508
Publisher: CRC Press
Year: 2011
Availability: Out of Stock

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While the finite element method (FEM) has become the standard technique used to solve static and dynamic problems associated with structures and machines, ANSYS software has developed into the engineer’s software of choice to model and numerically solve those problems.

An invaluable tool to help engineers master and optimize analysis, The Finite Element Method for Mechanics of Solids with ANSYS Applications explains the foundations of FEM in detail, enabling engineers to use it properly to analyze stress and interpret the output of a finite element computer program such as ANSYS.

Illustrating presented theory with a wealth of practical examples, this book covers topics including:

  • Essential background on solid mechanics (including small- and large-deformation elasticity, plasticity, viscoelasticity) and mathematics
  • Advanced finite element theory and associated fundamentals, with examples
  • Use of ANSYS to derive solutions for problems that deal with vibration, wave propagation, fracture mechanics, plates and shells, and contact


Totally self contained, this text presents step-by-step instructions on how to use ANSYS Parametric Design Language (APDL) and the ANSYS Workbench to solve problems involving static/dynamic structural analysis (both linear and non-linear) and heat transfer, among other areas. It will quickly become a welcome addition to any engineering library, equally useful to students and experienced engineers alike.

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Chapter 1 : Finite Element Concepts
Chapter 2 : Linear Elasticity
Chapter 3 : Triangular Elements for The Plane Problem
Chapter 4 : The Four Node Quadrilateral and Other Elements
Chapter 5 : Plasticity
Chapter 6 : Viscoelasticity
Chapter 7 : Dynamic Analysis
Chapter 8 : Fracture Mechanics
Chapter 9 : Finite Displacements
Chapter 10 : Bending of Plates and Shells
Chapter 11 : Constraints and Contact
Chapter 12 : Heat Conduction in Elastic Solids
Appendix