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The Finite Element Method A Practical Course

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The Finite Element Method A Practical Course CHAPTER 5: FEM FOR 2D SOLIDS CONTENTS INTRODUCTION LINEAR TRIANGULAR ELEMENTS Field variable interpolation Shape ... – PowerPoint PPT presentation

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Title: The Finite Element Method A Practical Course


1
The Finite Element Method A Practical Course
CHAPTER 5
  • FEM FOR 2D SOLIDS

2
CONTENTS
  • INTRODUCTION
  • LINEAR TRIANGULAR ELEMENTS
  • Field variable interpolation
  • Shape functions construction
  • Using area coordinates
  • Strain matrix
  • Element matrices
  • LINEAR RECTANGULAR ELEMENTS
  • Shape functions construction
  • Strain matrix
  • Element matrices
  • Gauss integration
  • Evaluation of me

3
CONTENTS
  • LINEAR QUADRILATERAL ELEMENTS
  • Coordinate mapping
  • Strain matrix
  • Element matrices
  • Remarks
  • HIGHER ORDER ELEMENTS
  • COMMENTS (GAUSS INTEGRATION)
  • CASE STUDY

4
INTRODUCTION
  • 2D solid elements are applicable for the analysis
    of plane strain and plane stress problems.
  • A 2D solid element can have a triangular,
    rectangular or quadrilateral shape with straight
    or curved edges.
  • 2D solid element can deform only in the plane of
    the 2D solid.
  • At any point, there are two components in x and y
    directions for the displacement as well as
    forces.

5
INTRODUCTION
  • For plane strain problems, the thickness of the
    element is unit, but for plane stress problems,
    the actual thickness must be used.
  • In this course, it is assumed that the element
    has a uniform thickness h.
  • Formulating 2-D elements with given variation of
    thickness is also straightforward, as the
    procedure is the same as that for a uniform
    element.

6
2D solids
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