Page 333 - Mechanics of Asphalt Microstructure and Micromechanics

P. 333

Applications of Discrete Element Method 325

Mirghasemi, A.A., Rothenburg, L. and Matyas, E.L. (2002). Inﬂuence of particle shape on engi-
neering properties of assemblies of two-dimensional polygon-shaped particles. Geotech-
nique, Vol.52, No.3, pp.209–217.
Munjiza, A. (2005). The Combined Finite-Discrete Element Method. John Wiley & Sons, Ltd.
Munjiza, A., Bangash, T. and John, N.W.M. (2004). The combined ﬁnite-discrete element method

for structural failure and collapse. Engineering Fracture Mechanics, Vol.71, No.4–6,
pp.469–483.
Munjiza, A. and John, N.W.M. (2002). Mesh size sensitivity of the combined FEM/DEM fracture
and fragmentation algorithms. Engineering Fracture Mechanics, Vol.69, No.2, pp.281–295.
Munjiza, A., Latham, J.P. and Andrews, K.R.F. (2000) Detonation gas model for combined ﬁ nite-
discrete element modelling of fracture and fragmentation. International Journal of Numerical
Methods in Engineering, Vol.49, pp.1495–1520.
Ng, T.T. and Dobry, R. (1994). Numerical simulations of monotonic and cyclic loading of granu-
lar soil. Journal of Geotechnical Engineering, Vol.120, No.2, pp.388–403.
Ni, Q., Powrie, W., Zhang, X. and Harkness, R. (2000). Effect of particle properties on soil
behavior 3-D numerical modeling of shear box tests. ASCE Geotechnical Special Publications,
Numerical Methods in Geotechnical Engineering, No.96, pp.58–70.
Oda, M. and Kazama, H. (1998). Micro-structure of shear band and its relation to the mecha-
nisms of dilatancy and failure of dense granular soils. Geoechnique, Vol.44, No.1, pp.1–19.
Oda, M. and Iwashita, K. (Editors) (1999). Mechanics of Granular Materials: An Introduction.
Elsevier.
Papagiannakis, A.T., Abbas, A. and Masad, E. (2002). Micromechanical analysis of viscoelastic
properties of asphalt concretes. Transportation Research Record, No.1789, pp.113–120.
Rothenburg, L. and Bathurst, R.J. (1989). Analytical study of induced anisotropy in idealized
granular materials. Geotechnique, Vol.39, No.4, pp.601–614.
Rothenburg, L. and Barthurst, R.J. (1992). Micromechnical features of granular assemblies with
planar elliptical particles. Geotechnique, Vol.42, pp.79–95.
Thornton, C. (1992). Applications of DEM to process engineering problems. Engineering Compu-
tations, Vol.9, No.2, pp.289–297.
Ullidtz, P. (2001). Distinct element method for study of failure in cohesive particulate media.
Transportation Research Record, No.1757, pp.127–133.
Walton, O.R. and Braun, R.L. (1993). Simulation of rotary-drum and repose tests for frictional
spheres and rigid sphere clusters. Joint DOE/NSF Workshop on Flow of Particulates and Fluids,
Ithaca, NY, Vol.29, pp.1–18.
Wang, L.B., Frost, J.D. and Lai, J.S. (2004). 3D digital representation of the microstructure of
granular materials from x-ray tomography imaging. Journal of Computing in Civil Engineer-
ing, Vol.18, No.1, pp.28–35.
Wang, L.B., Park, J.Y. and Fu,Y.R. (2007). Representation of real particles for dem simulation
using x-ray tomography. Journal of Construction and Building Materials, Vol.21, No.2,
pp.338–348.
Washington, D.W. and Meegoda, J.N. (2003). Micro-mechanical simulation of geotechnical prob-
lems using massively parallel computers. International Journal of Numerical and Analytical
Methods in Geomechanics, Vol.27, No.14, pp.1227–1234.
Williams, J.R. and Pentland, A.P. (1991). Superquadrics and modal dynamics for discrete ele-
ments in concurrent design. Intelligent Engineering Systems Laboratory, Technical Report, Order
No. IESL 91-12, Massachusetts Institute of Technology.
Yoshida, T., Tatsuoka, F., Siddiquee, M.S.A., Kamegai, Y. and Park, C.S. (1994). Shear banding in
sands observed in plane strain compression. Symposium on Localization and Bifurcation Theory
for Soils and Rocks (Eds: R. Chambon, J. Desrues and I. Vardoulakis), pp.165–179, Balkema.

328 329 330 331 332 333 334 335 336 337 338