Page 466 - Mechanics of Asphalt Microstructure and Micromechanics
P. 466
458 C hapter T h ir te en
Caro, S., Masad, E., Bhasin, A. and Little, D.N. (2008b). Moisture susceptibility of asphalt mix-
tures, part 2: characterisation and modelling. International Journal of Pavement Engineering,
Vol. 9, No.2, pp.99–114.
Car, R. and Parrinello, M. (1985). Unified approach for molecular dynamics and density-func-
tional theory. Physical Review Letters. Vol.55, pp.2471–2474.
Chenoweth, K., van Duin, A. and Goddard, W.A. (2008). Reactive force field for molecular dy-
namics simulations of hydrocarbon oxidation. J. Phys. Chem. A., Vol. 112, pp.1040–1053.
Chen, Y.P. (2006). Local stress and heat flux in atomistic systems involving three-body forces.
Journal of Chemical Physics, Vol.124, No.5.
Cheng, D.X., Little, D. N., Lytton, R.L. and Holste, J.C. (2002a). Surface energy measurement of
asphalt and its application to predicting fatigue and healing in asphalt mixtures. Transporta-
tion Research Record, No. 1810, pp.44–53.
Cheng, D.X., Little, D.N., Lytton, R.L. and Holste, J.C. (2002b). Use of surface free energy of
asphalt-aggregate system to predict moisture damage potential. Journal of the Association of
Asphalt Paving Technologists, Vol. 71, pp.59–88.
Cheng, D.X., Little, D.N., Lytton, R.L. and Holste. J.C. (2003). Moisture damage evaluation of
asphalt mixtures by considering both moisture diffusion and repeated-load conditions.
Transportation Research Record, No. 1832, pp.42–49.
Chorin, A.J. (1967). A numerical method for solving incompressible viscous fl ow problems. J.
Comput. Phys., Vol.2, pp.12–26.
Chorin, A. J., Hold, O. and Kupferman R. (2002). Optimal prediction with memory. Physica D,
Vol.166, 239–257.
Curtis, C.W., Ensley, K. and Epps, J. (1993). Fundamental properties of asphalt-aggregate interac-
tions including adhesion and absorption. SHRP-A-341. Strategic Highway Research Program,
TRB, National Research Council, Washington, D.C.
Cui, X.Z. (2009). Numerical simulation of dynamic pore pressure in asphalt pavement, Journal of
Southeast University, Vol. 25, pp.79–82.
Datta, D.K., Picu, R.C. and Shephard. M.S. (2004). Composite grid atomistic continuum method:
an adaptive approach to bridge continuum with atomistic analysis. Intl. J. Multiscale Compu-
tational Engineering, Vol.2, No.3, pp.71–90.
Dauber-Osguthorpe, P., Roberts, V.A., Osguthorpe, D.J., Wolff, J., Genest, M., and Hagler, A.T.
(1988). Structure and energetics of ligandbinding to proteins: Escherichia coli dihydrofolate
reductase trimethoprim, a drug-receptor system. Proteins: Structure, Function, and Genetics,
Vol.4, pp.31–47.
Dong, Z.J., Tan, Y.Q. and Cao, L.P. (2008). The effect of water on pavement response based on 3D
FEM simulation and experiment evaluation. Geotechnical Special Publication, No.182, pp.4–15.
E,W. and Huang, Z. (2002). A dynamic atomistic-continuum method for the simulation of crys-
talline materials, J. Comput. Phys., Vol.182, pp.234–261.
E,W. and Engquist, B. (2003). The heterogeneous multi-scale methods. Comm. Math. Sci., Vol.1,
pp.87–132.
Eidel, B. and Stukowski, A. (2008). A variational formulation of the quasi-continuum method
based on energy sampling of clusters. J. Mech. Phys. Sol., Vol.57, No.1, pp87–108.
El-Azab,A., (2000), Statistical mechanics treatment of the evolution of dislocation distributions in
single crystals. Phys. Rev. B 61, pp.11956–11966
Epps, J.A., Sebaaly, P.E., Penaranda, J., Maher, M.R., McCann, M.B. and Hand, A.J. (2000).
NCHRP Report 444: Compatibility of a test for moisture-induced damage with superpave
Volumetric Mix Design. TRB, National Research Council. Washington, D.C.
Ericksen, J.L., Gurtin, M. (1984), The Cauchy-born hypotheses for crystals. Phase Transformations
and Material Instabilities in Solids, Academic Press, New York. pp.61–77.
