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Chapter 11 – Three-Dimensional Stress Analysis

Chapter 11 – Three-Dimensional Stress Analysis. Topics: 3-D Stress Analysis Tetrahedral Elements (4 and 10 node) Hexahedral (Brick) Elements (8 and 20 nodes) Abaqus tutorial – 3-D Analysis. Stress Components – 3-D Problems. Strain Components – 3-D Problems. 6 x 1. 6 x 1. 6 x 6.

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Chapter 11 – Three-Dimensional Stress Analysis

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  1. Chapter 11 – Three-Dimensional Stress Analysis Topics: • 3-D Stress Analysis • Tetrahedral Elements (4 and 10 node) • Hexahedral (Brick) Elements (8 and 20 nodes) • Abaqus tutorial – 3-D Analysis

  2. Stress Components – 3-D Problems

  3. Strain Components – 3-D Problems

  4. 6 x 1 6 x 1 6 x 6 Stress-Strain Relations – 3-D Problems

  5. 12 x 1 3-D Tetrahedral Element Note: Direct extension of formulation for 3 node triangle for planar analysis

  6. Tetrahedral Element – Linear Displacement Interpolation Similar expressions for v(x,y,z) and w(x,y,z)

  7. Displacement Interpolation (cont.)

  8. Displacement Interpolation (cont.)

  9. 6 x 3 6 x 3 6 x 3 6 x 3 6 x 12 Strain - Displacement Relation (Tetrahedral Element) Note: all terms are constant

  10. 12 x 12 6 x 6 12 x 6 6 x 12 Element Stiffness Matrix (Tetrahedral Element)

  11. Tetrahedral Element – Quadratic Displacement Interpolation

  12. Linear Hexahedral Element(8 Node Brick) Note: Direct extension of formulation for 4 node quad element for planar analysis Isoparametric Formulation:

  13. where si, ti, zi = ±1 8 Node Brick Isoparametric Formulation (cont.) Isoparametric Coordinate Transformation: Displacement Interpolation:

  14. where si, ti, zi = ± 0.57735 Element Stiffness Matrix – 8 Node Brick Gaussian Quadrature (2 x 2 x 2)

  15. Quadratic Hexahedral Element(20 Node Brick)

  16. Abaqus Tutorial – 3-D Stress Analysis

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