Bibliography









             1. Acharya, A. (1992) Discrete element method for the simulation of ball mills. Master’s thesis, University
               of Utah.
             2. Adams, M.J. and Edmondson, B. (1987) Forces between particles in continuous and discrete liquid media.
               In Tribology in Particulate Technology, edited by B.J. Briscoe and M.J. Adams, Adam Hilger.
             3. Adams, M.J. and Perchard, V. (1985) The cohesive force between particles with interstitial liquid. I.
               Chem. E. Symp. Series. 91. 147–160.
             4. Aggson, J.R. (1979) Stress Induced Failures in Mine Roof, Bureau of Mines RI 8338.
             5. Aggson, J.R. (1978) Coal Mine Floor Heave in the Beckley Coalbed. An Analysis,’ Report of Investiga-
               tions 8274, Denver Mining Research Center, Bureau of Mines, Denver, Colorado, USA.
             6. Ahola, M. (1989) Application of the Discrete Element Method toward Roof Stability Problems in Under-
               ground Coal Mines, In Proc. of 1st Conf. DEM, Golden, CO, USA.
             7. Aidanp¨ a¨ a, J.O., Shen, H.H. and Gupta, R.B. (1996) Experimental and numerical studies of shear layers
               in granular shear cell. ASCE Journal of Engineering Mechanics, 122(3), 187–196.
             8. Aizawa, T., Iwai, T. and Kihara, J. (1992) Granular Modeling of Steel Powder Flow and Compaction
               in Injection Molding. In Proc. of Powder Injection Molding Symposium (American Powder Metallurgy
               Institute, California), 419–433.
             9. Alshibli, K. and Sture, S. (2000) Shear band formation in plane strain experiments of sand. ASCE Journal
               of Geotechnical and Geoenvironmental Engineering, 126(6), 495–503.
            10. Anandarajah, A. (1994) Discrete Element Method for Simulating Behavior of Cohesive Soil, J. Geotech.
               Eng., ASCE, 120(9), 1593–1613.
            11. Anandarajah, A. (2000) Numerical simulation of one dimensional behaviour of kaolinite, Geotechnique
               50(5), 509–521.
            12. Anandarajah, A. and Chen, J. (1997) Van der Waals Attractive Force Between Clay Particles in Water and
               Contaminant. Soils and Foundations, Japanese Society of Soil Mechanics and Foundation Engineering,
               37(2), 27–37.
            13. Anderson, T. and Jackson, R. (1967) A fluid mechanical description of fluidized beds, Ind. Eng. Chem.
               Fundam. 6(4), 527–539.
            14. Antonellini, M.A. and Pollard, D.D. (1995) Distinct element modeling of deformation bands in sandstone.
               J. Struct. Geol. 17, 1165–1182.
            15. Babic, M., Shen, H.H. and Shen, H.T. (1990) The stress tensor in granular shear flows of uniform,
               deformable disks at high solids concentrations. J. Fluid Mech. 219, 81–118.
            16. Babuska, I. and Melenk, J.M. (1997) The partition of unity method. Int. J. Numer. Meth. Engng, 40,
               727–758.
            17. Baerns, M. (1966) Effect of interparticle adhesive forces on fluidization of fine particles. Industrial &
               Engineering Chemistry Fundamentals, 5, 508–516.
            18. Bakhtar, K., Jones, A.H. and Reed, M.A. (1987) Physical Modeling of Complex Underground Structures,
               28th US Symposium on Rock Mechanics, 771–779.
            19. Ban, A.H. (1981) Superquadrics and Angle-Preserving Transformations. IEEE Computer Graphics and
               Applications, 1, 1–20.
            20. Bangash, T., Munjiza, A. and John, N. (2001) Modelling of Reinforced Concrete Beam Failure using
               Combined Finite/Discrete Element Method. Fracture Damage Mechanics Conference 2001, Milan.

           The Combined Finite-Discrete Element Method  A. Munjiza
            2004 John Wiley & Sons, Ltd ISBN: 0-470-84199-0