Discrete Element Method Bibliography

[89]

Archard, J. F., and Hirst, W. 1956. "The wear of metals under unlubricated conditions", Proceedings of the Royals Society of London. Series A, Mathematical and Physical Sciences. 236(1206), pp 397-410.

[90]

Butt, H-J., Graf, K. and Kappl, M. 2006. Physics and Chemistry of Interfaces,  Wiley-VCH.

[91]

Camacho, G.T. and M. Ortiz, 1996, "Computation Modelling of Impact Damage in Brittle Materials," Int'l J. Solids Structures, 33(20-22) pp 2899-2938.

[92]

Cheng, G. J., Yu, A. B. and Zulli, P. 1999. “Evaluation of effective thermal conductivity from the structure of packed bed”, Chemical Engineering Science, 54, pp. 4199-4209.

[93]

Clift, R., Grace, J. R., Weber, M. E. 1978. Bubbles, Drops and Particles, Academic Press, New York, chapters 4 & 6.

[94]

Cundall, P. A., Strack, O. D. L. 1979. “A discrete numerical model for granular assemblies”, Geotechnique, 29, pp. 47-65.

[95]

Di Felice, R. 1994. “The voidage function for fluid-particle interaction systems”, Int. J. Multiphase Flow, 20, pp. 153-159.

[96]

Di Renzo, Alberto and Di Maio, Francesco Paolo. 2004. “Comparison of contact-force models for the simulation of collisions in DEM-based granular flow codes”, Chemical Engineering Science 59 pp. 525-541.

[97]

Feng, Y.T., Han, K., Owen, D.R.J. 2009. "Discrete thermal element modelling of heat conduction in particle systems: Pipe-network model and transient analysis." Powder Technology 193, 248–256.

[98]

Feng, Y.T., Han, K., Owen, D.R.J. 2012. "Energy-conserving contact interaction models for arbitrarily shaped discrete elements", Comput. Methods Appl. Mech. Engrg. 205-208, 169-177.

[99]

Gidaspow, D. 1994. Multiphase Flow and Fluidization-Continuum and Kinetic Theory Descriptions, Academic Press.

[100]

Haider, A. and Levenspiel, O. 1989. “Drag coefficient and terminal velocity of spherical and non-spherical particles”, Powder Technology, 77, pp. 143-152.

[101]

Han, K., Feng, Y. T., and Owen, D. R. J, 2006. "Performance comparisons of tree-based and cell-based contact detection algorithms," Engineering Computations: International Journal for Computer-Aided Engineering and Software, 24:2, 165-181.

[102]

Iwasaki, T., Munetake, S., Takaomi, K.. 2001. "Analysis of collision energy of bead media in a high-speed elliptical rotor-type poweder mixer using the discrete element method," Powder Technology 121 pp. 239-248.

[103]

Johnson, K.L. 1987. Contact Mechanics, Cambridge University Press, Cambridge.

[104]

Kosteski, L., R.B. D'Ambra and I. Iturrioz, 2012. "Crack propagation in elastic solids using the truss-like discrete element method," Int. J. Fract., 174, pp. 139-161.

[105]

Perkins, Eric, and Williams, John, 2001. "CGrid: Neighbor Searching for Many Body Simulation", ICADD-4, pp 427-438.

[106]

Pham, Chi Vinh, Ogden, R.W. 2004. “On formulas for the Rayleigh wave speed”, Wave Motion, 39 pp. 191-197.

[107]

Pichugin, A.V. 2008. “Approximation of the Rayleigh wave speed”.

[108]

Potyondy, D.O, and Cundall, P.A. 2004. “A bonded-particle model for rock”, Int. J. Rock Mechanics & Mining Sciences 41 pp. 1329–1364.

[109]

Rayleigh, L. 1885. “On waves propagated along the plane surface of an elastic solid”, Proc. Lond. Math. Soc. 17.

[110]

Rojek, J. 2014. "Discrete element thermomechanical modelling of rock cutting with valuation of tool wear," Comp. Part. Mech. 1:71-84.

[111]

Saffman, P.G. 1965. "The lift on a small sphere in a slow shear flow," J. Fluid Mech. 22 385-400. (See also Saffman, P.G. 1968. Corrigendum to: “The lift on a small sphere in a slow shear flow,“ J. Fluid Mech. 31 624.)

[112]

Sommerfeld, M. 2000. “Theoretical and Experimental Modelling of Particulate Flows,” Technical Report Lecture Series 2000-06, von Karman Institute for Fluid Dynamics pp 20-23.

[113]

Timoshenko, S. 1951. Theory of Elasticity, McGraw-Hill Book Company.

[114]

Trent, B.C., L.G. Margolin, P.A. Cundall, and Gaffney, E.D., 1986. "The Micro-Mechanics of Cemented Granular Material," Second Int'l. Conf. On Constitutive Laws for Engineering Materials, Tucson, Arizona.

[115]

Tsuji, Y., Tanaka, T., Ishida, T. 1992. “Lagrangian numerical simulation of plug flow of cohesionless particles in horizontal pipe.” Powder Technology 71:3 pp. 239-250.

[116]

Von Neumann, J., and Richtmyer, R. D. 1950. "A method for the numerical calculation of hydrodynamic shocks", J. Appl. Phys. 21, 232–237.

[117]

Walton, O.R. 1993. “Numerical simulation of inclined chute flows of monodisperse inelastic, frictional spheres”, Mech. Mater. 16 239–247.

[118]

Walton, O.R. 1993. “Numerical simulation of inelastic, frictional particle-particle interactions”, in Particulate Two-Phase Flow, M.C. Roco, Ed., Butterworth–Heinemann, Stoneham, MA, pp. 884–911.

[119]

Walton, O.R. and Braun, R.L. 1986. “Viscosity, granular-temperature, and stress calculations for shearing assemblies of inelastic, frictional disks”, J. Rheology 30:5, pp. 949–980.