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Chapter 4 Material Behavior – Linear Elastic Solids

Chapter 4 Material Behavior – Linear Elastic Solids. Linear Elastic Constitutive Solid Model Develop Force-Deformation Constitutive Equation in the Form of Stress-Strain Relations Under the Assumptions: Solid Recovers Original Configuration When Loads Are Removed

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Chapter 4 Material Behavior – Linear Elastic Solids

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  1. Chapter 4 Material Behavior – Linear Elastic Solids • Linear Elastic Constitutive Solid ModelDevelop Force-Deformation Constitutive Equation in the Form of Stress-Strain Relations Under the Assumptions: • Solid Recovers Original Configuration When Loads Are Removed • Linear Relation Between Stress and Strain • Neglect Rate and History Dependent Behavior • Include Only Mechanical Loadings • Thermal, Electrical, Pore-Pressure, and Other Loadings Can Also Be Included As Special Cases ElasticityTheory, Applications and NumericsM.H. Sadd , University of Rhode Island

  2. Typical One-Dimensional Stress-Strain Behavior  Steel Tensile Sample Cast Iron Aluminum  = E Applicable Region for Linear Elastic Behavior ElasticityTheory, Applications and NumericsM.H. Sadd , University of Rhode Island

  3. Linear Elastic Material ModelGeneralized Hooke’s Law with 36 Independent Elastic Constants or ElasticityTheory, Applications and NumericsM.H. Sadd , University of Rhode Island

  4. (Body-Centered Crystal) (Hexagonal Crystal) (Fiber Reinforced Composite) Anisotropy and Nonhomogeneity Anisotropy - Differences in material properties under different directions. Materials like wood, crystalline minerals, fiber-reinforced composites have such behavior. Typical Wood Structure Note Particular Material Symmetries Indicated by the Arrows Nonhomogeneity - Spatial differences in material properties. Soil materials in the earth vary with depth, and new functionally graded materials (FGM’s) are now being developed with deliberate spatial variation in elastic properties to produce desirable behaviors. Gradation Direction ElasticityTheory, Applications and NumericsM.H. Sadd , University of Rhode Island

  5. Isotropic MaterialsAlthough many materials exhibit non-homogeneous and anisotropic behavior, we will primarily restrict our study to isotropic solids. For this case, material response is independent of coordinate rotation Generalized Hooke’s Law  - Lamé’sconstant  - shear modulus or modulus of rigidity ElasticityTheory, Applications and NumericsM.H. Sadd , University of Rhode Island

  6. Isotropic MaterialsInverted Form - Strain in Terms of Stress ElasticityTheory, Applications and NumericsM.H. Sadd , University of Rhode Island

  7.    p  p  p Physical Meaning of Elastic Moduli Hydrostatic Compression Pure Shear Simple Tension ElasticityTheory, Applications and NumericsM.H. Sadd , University of Rhode Island

  8. Relations Among Elastic Constants ElasticityTheory, Applications and NumericsM.H. Sadd , University of Rhode Island

  9. Typical Values of Elastic Moduli for Common Engineering Materials ElasticityTheory, Applications and NumericsM.H. Sadd , University of Rhode Island

  10. Hooke’s Law in Cylindrical Coordinates x3 z z z r rz r  x2 d r x1  dr ElasticityTheory, Applications and NumericsM.H. Sadd , University of Rhode Island

  11. Hooke’s Law in Spherical Coordinates x3 R R R   R   x2  x1 ElasticityTheory, Applications and NumericsM.H. Sadd , University of Rhode Island

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