1. Rheology and wave propagation by J. M. Carcione (OGS) jcarcione@ogs.trieste.it

2. Page: 2

3. Page: 3

4. Page: 4 Poro-elasticity

5. Page: 5 Strain energy - Stress-strain relation

6. Page: 6 Jacketed test

7. Page: 7 Unjacketed test

8. Page: 8 Elastic moduli

9. Page: 9 Gassmann modulus

10. Page: 10 Gassmann modulus- variation of fluid content

11. Page: 11 Gassmann modulus - Examples

12. Page: 12 Gassmann modulus - Examples

13. Page: 13 Gassmann modulus - Examples

14. Page: 14 Gassmann modulus - Fluid substitution

15. Page: 15 Visco-elasticity

16. Page: 16 Burgers model

17. Page: 17 Burgers model - stress-strain relation

18. Page: 18 Burgers model - Creep function

19. Page: 19 Mechanical models Maxwell Kelvin-Voigt Zener

20. Page: 20 Zener model - Creep function

21. Page: 21 Zener model - Relaxation function

22. Page: 22 Zener model - velocity and attenuation

23. Page: 23 Maxwell model - creep and relaxation

24. Page: 24 Memory variable

25. Page: 25 Viscoelastic equations

26. Page: 26 Anisotropy

27. Page: 27 Stress-strain relation

28. Page: 28 Triclinic media (21)

29. Page: 29 Transversely-isotropic media (5)

30. Page: 30 Orthorhombic media (9)

31. Page: 31 Monoclinic media (12)

32. Page: 32 Anisotropy - eigenstrains - attenuation

33. Page: 33 Anisotropy - Kelvin-Christoffel matrix

34. Page: 34 Anisotropy - Slowness-Wavefronts

35. Page: 35 Anisotropy and attenuation

36. Page: 36 Relevant references

37. Page: 37