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UNIT – III FINITE ELEMENT METHOD
Presented by, G.Bairavi AP/civil 4/2/2019
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PLANE STRESS AND PLANE STRAIN
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Plane stress 3
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Formulation of Two-Dimensional Elasticity Problems
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Simplified Elasticity Formulations
The General System of Elasticity Field Equations of 15 Equations for 15 Unknowns Is Very Difficult to Solve for Most Meaningful Problems, and So Modified Formulations Have Been Developed. Displacement Formulation Eliminate the stresses and strains from the general system of equations. This generates a system of three equations for the three unknown displacement components. Stress Formulation Eliminate the displacements and strains from the general system of equations. This generates a system of six equations and for the six unknown stress components. 20
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Solution to Elasticity Problems
F(z) G(x,y) z x y Even Using Displacement and Stress Formulations Three-Dimensional Problems Are Difficult to Solve! So Most Solutions Are Developed for Two-Dimensional Problems 21
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Two and Three Dimensional Problems
Two-Dimensional x x y y z z z Spherical Cavity y x 22
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Two-Dimensional Formulation
Plane Strain Plane Stress x y z R 2h x y z R << other dimensions 23
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Examples of Plane Strain Problems
y x y z P x z Long Cylinders Under Uniform Loading Semi-Infinite Regions Under Uniform Loadings 24
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Examples of Plane Stress Problems
Thin Plate With Central Hole Circular Plate Under Edge Loadings 25
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Plane Strain Formulation
Strain- Displacement Hooke’s Law 26
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Plane Strain Formulation
Displacement Formulation Stress Formulation R So Si S = Si + So x y 27
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Plane Strain Example 28
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Plane Stress Formulation
Hooke’s Law Strain- Displacement Note plane stress theory normally neglects some of the strain-displacement and compatibility equations. 29
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Plane Stress Formulation
Displacement Formulation Stress Formulation R So Si S = Si + So x y 30
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Correspondence Between Plane Problems
Plane Strain Plane Stress 31
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Elastic Moduli Transformation Relations for Conversion Between Plane Stress and Plane Strain Problems Plane Strain Plane Stress E v Plane Stress to Plane Strain Plane Strain to Plane Stress Therefore the solution to one plane problem also yields the solution to the other plane problem through this simple transformation 32
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Airy Stress Function Method Plane Problems with No Body Forces
Stress Formulation Airy Representation Biharmonic Governing Equation (Single Equation with Single Unknown) 33
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Polar Coordinate Formulation
x1 x2 dr rd d Strain- Displacement Hooke’s Law Equilibrium Equations Airy Representation 34
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Solutions to Plane Problems Cartesian Coordinates
Airy Representation Biharmonic Governing Equation R S Traction Boundary Conditions x y 35
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Solutions to Plane Problems Polar Coordinates
Airy Representation Biharmonic Governing Equation R S Traction Boundary Conditions x y r 36
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Cartesian Coordinate Solutions Using Polynomial Stress Functions
terms do not contribute to the stresses and are therefore dropped terms will automatically satisfy the biharmonic equation terms require constants Amn to be related in order to satisfy biharmonic equation Solution method limited to problems where boundary traction conditions can be represented by polynomials or where more complicated boundary conditions can be replaced by a statically equivalent loading 37
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Plane Stress and Plane Strain
Plane Stress - Thin Plate: 38 FDTP ON CE6602-STRUCTURAL ANALYSIS-II ORGANISED BY UNIVERSITY COLLEGE OF ENGG,THIRUKKUVALAI
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Plane Stress and Plane Strain
Plane Strain - Thick Plate: Plane Stress: Plane Strain: Replace E by and by 39 FDTP ON CE6602-STRUCTURAL ANALYSIS-II ORGANISED BY UNIVERSITY COLLEGE OF ENGG,THIRUKKUVALAI
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Equations of Plane Elasticity Constitutive Relation
Governing Equations (Static Equilibrium) Strain-Deformation (Small Deformation) Constitutive Relation (Linear Elasticity) 40
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THANK YOU 41
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