Linear Analysis

Description

This video series is a comprehensive course of study that presents effective finite element procedures for the linear analysis of solids and structures. The finite element method is the ideal tool for solving static and dynamic problems in engineering and the sciences. Linear analysis assumes linear elastic behavior and infinitesimally small displacements and strains. To establish appropriate models for analysis, it is necessary to become familiar with the finite element methods available.

In these videos, Professor K. J. Bathe, a researcher of world renown in the field of finite element analysis, teaches the basic principles used for effective finite element analysis, describes the general assumptions, and discusses the implementation of finite element procedures. Upon completion of this video course, a second course covering Nonlinear Analysis is available.

Prerequisites

An undergraduate degree in engineering or science.

Textbook

Bathe, K. J. Finite Element Procedures. 2nd ed. Klaus-Jürgen Bathe, 2014. ISBN: 9780979004957.

Related Resources

Prof. Bathe currently teaches two courses at MIT focused on finite element analysis, both available on MIT OpenCourseWare:

2.092/2.093 Finite Element Analysis of Solids and Fluids I

2.094 Finite Element Analysis of Solids and Fluids II

Additional books co-authored by Prof. Bathe and relating to this course are:

Chapelle, D., and K. J. Bathe. The Finite Element Analysis of Shells: Fundamentals. New York, NY: Springer, 2011. ISBN: 9783642164071.

Bucalem, M. L., and K. J. Bathe. The Mechanics of Solids and Structures: Hierarchical Modeling and the Finite Element Solution. New York, NY: Springer, 2011. ISBN: 9783540263319.

About ADINA

This video course presents general theory and use of finite element procedures. However, the course refers in many parts to ADINA, a finite element program for general state-of-the-art linear and nonlinear, static and dynamic, and multi-physics analyses. Please see ADINA R&D for more information.

Study Guide Components

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Lecture 1: Some Basic Concepts of Engineering Analysis

Lecture 1: Some Basic Concepts of Engineering Analysis

Lecture 2: Analysis of Continuous Systems

Lecture 2: Analysis of Continuous Systems

Lecture 3: The Displacement-Based Finite Element Method

Lecture 3: The Displacement-Based Finite Element Method

Lecture 4: Generalized Coordinate Finite Element Models

Lecture 4: Generalized Coordinate Finite Element Models

Lecture 5: Implementation of Methods in Computer Programs

Lecture 5: Implementation of Methods in Computer Programs

Lecture 6: Formulation and Calculation of Isoparametric Models

Lecture 6: Formulation and Calculation of Isoparametric Models

Lecture 7: Formulation of Structural Elements

Lecture 7: Formulation of Structural Elements

Lecture 8: Numerical Integrations, Modeling Considerations

Lecture 8: Numerical Integrations, Modeling Considerations

Lecture 9: Solution of Equilibrium Equations in Static Analysis

Lecture 9: Solution of Equilibrium Equations in Static Analysis

Lecture 10: Solution of Equilibrium Equations in Dynamic Analysis

Lecture 10: Solution of Equilibrium Equations in Dynamic Analysis

Lecture 11: Mode Superposition Analysis; Time History

Lecture 11: Mode Superposition Analysis; Time History

Lecture 12: Solution Methods for Frequencies and Mode Shapes

Lecture 12: Solution Methods for Frequencies and Mode Shapes