Page 169 - Mechanics of Asphalt Microstructure and Micromechanics
P. 169
Mixture T heor y and Micromechanics Applications 161
Christoffersen, J., Mehrabadi, M.M. and Nemat-Nasser, S. (1981). A micromechanical description
of granular material behavior. Journal of Applied Mechanics, Vol.48, No.2, pp.339–344.
Coussy, O. (1995). Mechanics of Porous Continua. John Wiley and Sons, New York.
Cundall, P.A. and Strack. O.D.L. (1979). A discrete numerical model for granular assemblies.
Geotechnique, Vol.29, No.1, pp.47–65.
Dauzats, M. and Rampal. A. (1987). Mechanism of surface cracking in wearing courses. Proceed-
ing of 6th International Conference on the Structural Design of Asphalt Pavements, Ann Arbor,
Michigan, pp.232–247.
DeHoff, R.T. and Rhines, F.R. (1968). Quantitative Microscopy. McGraw-Hill, New York.
Desruses, J., Chambon, R., Mokni, M. and Mazerolle, F. (1996). Void ratio evolution inside shear
bands in triaxial sand specimen studied by computed tomography. Geotechnique, Vol.46,
No.3, pp.529–546.
Dobran, F. (1985). Theory of multiphase mixtures—A thermodynamic formulation. International
Journal of Multiphase Flow, Vol.11, No.1, pp.1–30.
Druheller, D.S. and Bedford, A. (1980). A thermodynamical theory of reacting immiscible
mixtures. Archive for Rational Mechanics and Analysis, Vol.73, No.3, pp.257–284.
Druta, C., Wang, L.B., Voyiadjis, G.Z. and Abadie, C. (2007a). Estimation of the stiffness of
asphalt mastics using hirsch model. Geotechnical Special Publication, No.176, pp.33–44.
Druta, C., Wang, L.B., Voyiadjis, G.Z. and Abadie, C. (2007b). Estimation of the stiffness of
asphalt mixture using a micromechanics approach. Geotechnical Special Publication, No.182,
pp.155–163.
Eringen, A.C. and Ingram, J.D. (1967). A continuum theory of chemically reacting media-II
Constitutive equations of reacting fl uid mixtures. International Journal of Engineering Science,
Vol.5, No.4, pp.289–322.
Eshelby, J.D. (1957). The determination of the elastic field of an ellipsoidal inclusion and related
problems. Proceedings of the Royal Society of London. Series A, Mathematical and Physical Sci-
ences, Vol.241, No.1226, pp.376–396.
Ferrari, M., Granik, V.T., Imam, A. and Nadeau, J.C. (Eds.) (1997). Advances in Doublet Mechan-
ics. Springer, New York.
Gerritsen, A.H., Gurp, C.A.P.M., Heide, J.P.J., Molenaar, A.A.A. and Pronk, A.C. (1987). Predic-
tion and prevention of surface cracking in asphaltic pavements. Proceeding of 6th Internation-
al Conference on the Structural Design of Asphalt Pavements, Ann Arbor, Vol.1, pp.378–391.
Goodman, M.A. and Cowin, S.C. (1971). Two problems in the gravity flow of granular materials.
Journal of Fluid Mechanics, Vol.45, pp.321–339.
Goodman, M.A. and Cowin, S.C. (1972). A continuum theory for granular materials. Archive for
Rational Mechanics Analysis, Vol.44, No.4, pp.249–266.
Granik, V.T. and Ferrari, M. (1993). Microstructural mechanics of granular media. Mechanics of
Materials, Vol.15, No.4, pp.301–332.
Green, A.E. and Naghdi, P.M. (1967). A theory of mixtures. Archive for Rational Mechanics Analy-
sis, Vol.24, No.4, pp.243–263.
Hansen, A.C. (1989). Reexamining some basic definitions of modern mixture theory. International
Journal of Engineering Science, Vol.27, No.12, pp.1531–1544.
Hashin, Z. and Shtrikman, S. (1963). A variational approach to the theory of the elastic behaviour
of multiphase materials. Journal of the Mechanics and Physics of Solids, Vol.11, No.2,
pp.127–140.
Hirsch, T.J. (1962). Modulus of Elasticity of Concrete Affected by Elastic Moduli of Cement Paste
Matrix and Aggregate, Journal Proceedings of the American Concrete Institute, Vol.59, No.3,
pp.427–452.
