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III. Strain and Stress

III. Strain and Stress. Strain Stress Rheology. A rheological law relates strain to stress and time. A review of simple rheological models…. (e) Perfect plastic. (f) Elasto-plastic. F. F. Elastic rheology. Elastic deformation is recoverable. e. s.

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III. Strain and Stress

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  1. III. Strain and Stress • Strain • Stress • Rheology A rheological law relates strain to stress and time.

  2. A review of simple rheological models… (e) Perfect plastic (f) Elasto-plastic F F

  3. Elastic rheology Elastic deformation is recoverable e s In linear elasticity stress is ‘proportional’ to strain

  4. Elastic rheology In linear elasticity stress is ‘proportional’ to stress (‘Hooke’s law’) e s is the elasticity tensor. It is a symmetric tensor (21 elasticity coefficients) For an isotropic linear elastic medium there are only 2 elasticity coefficients , e.g.: the Young modulus and Poisson ratio: Young Modulus Poisson ratio From a uniaxial stress experiment:

  5. Viscous rheology Viscous deformation is non recoverable s For Newtonian rheology the strain rate is ‘proportional’ to stress.

  6. Plastic rheology s (e) Plastic ss F t1 t2 NB: The strain evolution depends on the experimental conditions (ex: stiffness of the apparatus) Plastic deformation is non recoverable s ss e For Newtonian viscous rheology the strain rate is ‘proportional’ to stress.

  7. Coupled rheological models… Non-recoverable Recoverable, with hysteresis loop

  8. …Coupled rheological models (f) Elasto-plastic s s F t1 t2 e Non-recoverable

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