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Res.2-002 Linear Finite Element Analysis

Res.2-002 Linear Finite Element Analysis (MIT OCW). Instructor: Professor K. J. Bathe. This course introduces the basic principles used for effective finite element analysis, the general assumptions, and the implementation of finite element procedures. 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. (from ocw.mit.edu)

Formulation and calculation of isoparametric continuum elements. Truss, plane-stress, plane-strain, axisymmetric, and three-dimensional elements. Variable-number-nodes elements, curved elements. Derivation of interpolations, displacement and strain interpolation matrices, the Jacobian transformation.

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