All external articles referenced in Yade documentation.


This file is generated from doc/references.bib.

[Bertrand2008]D. Bertrand, F. Nicot, P. Gotteland, S. Lambert Discrete element method (DEM) numerical modeling of double-twisted hexagonal mesh. Canadian Geotechnical Journal (45), pages 1104–1117.
[Bertrand2005]D. Bertrand, F. Nicot, P. Gotteland, S. Lambert Modelling a geo-composite cell using discrete analysis. Computers and Geotechnics (32), pages 564–577.
[Chan2011]D. Chan, E. Klaseboer, R. Manica Film drainage and coalescence between deformable drops and bubbles.. Soft Matter (7), pages 2235-2264.
[Chareyre2002a]B. Chareyre, L. Briancon, P. Villard Theoretical versus experimental modeling of the anchorage capacity of geotextiles in trenches.. Geosynthet. Int. (9), pages 97–123.
[Chareyre2005]Bruno Chareyre, Pascal Villard (2005), Dynamic Spar Elements and Discrete Element Methods in Two Dimensions for the Modeling of Soil-Inclusion Problems. Journal of Engineering Mechanics (131), pages 689–698. (fulltext)
[Chareyre2003]Bruno Chareyre (2003), Modélisation du comportement d’ouvrages composites sol-géosynthétique par éléments discrets - Application aux tranchées d’ancrage en tête de talus.. PhD thesis at Grenoble University.
[Chareyre2002b]B. Chareyre, P. Villard (2002), Discrete element modeling of curved geosynthetic anchorages with known macro-properties.. In Proc., First Int. PFC Symposium, Gelsenkirchen, Germany.
[Chevremont2019]Chèvremont, William, Chareyre, Bruno, Bodiguel, Hugues (2019), Quantitative study of the rheology of frictional suspensions: Influence of friction coefficient in a large range of viscous numbers. Phys. Rev. Fluids 6 (4), pages 064302. DOI 10.1103/PhysRevFluids.4.064302
[Chevremont2020]William Chèvremont, Hugues Bodiguel, Bruno Chareyre (2020), Lubricated contact model for numerical simulations of suspensions. Powder Technology (372), pages 600 - 610. DOI (fulltext)
[Villard2004a]P. Villard, B. Chareyre Design methods for geosynthetic anchor trenches on the basis of true scale experiments and discrete element modelling. Canadian Geotechnical Journal (41), pages 1193–1205.
[Lu1998]Ya Yan Lu (1998), Computing the Logarithm of a Symmetric Positive Definite Matrix. Appl. Numer. Math (26), pages 483–496. DOI 10.1016/S0168-9274(97)00103-7
[Alonso2004]F. Alonso-Marroquin, R. Garcia-Rojo, H.J. Herrmann (2004), Micro-mechanical investigation of the granular ratcheting. In Cyclic Behaviour of Soils and Liquefaction Phenomena.
[McNamara2008]S. McNamara, R. García-Rojo, H. J. Herrmann (2008), Microscopic origin of granular ratcheting. Physical Review E (77).
[GarciaRojo2004]R. García-Rojo, S. McNamara, H. J. Herrmann (2004), Discrete element methods for the micro-mechanical investigation of granular ratcheting. In Proceedings ECCOMAS 2004.
[Allen1989]M. P. Allen, D. J. Tildesley (1989), Computer simulation of liquids. Clarendon Press.
[DeghmReport2006]F. V. Donzé (ed.), Annual Report 2006 (2006). Discrete Element Group for Hazard Mitigation. Université Joseph Fourier, Grenoble
[Pournin2001]L. Pournin, Th. M. Liebling, A. Mocellin (2001), Molecular-dynamics force models for better control of energy dissipation in numerical simulations of dense granular media. Phys. Rev. E (65), pages 011302. DOI 10.1103/PhysRevE.65.011302
[Jung1997]Derek Jung, Kamal K. Gupta (1997), Octree-based hierarchical distance maps for collision detection. Journal of Robotic Systems (14), pages 789–806.
[Hubbard1996]Philip M. Hubbard (1996), Approximating polyhedra with spheres for time-critical collision detection. ACM Trans. Graph. (15), pages 179–210. DOI 10.1145/231731.231732
[Klosowski1998]James T. Klosowski, Martin Held, Joseph S. B. Mitchell, Henry Sowizral, Karel Zikan (1998), Efficient Collision Detection Using Bounding Volume Hierarchies of k-DOPs. IEEE Transactions on Visualization and Computer Graphics (4), pages 21–36.
[Munjiza2006]A. Munjiza, E. Rougier, N. W. M. John (2006), MR linear contact detection algorithm. International Journal for Numerical Methods in Engineering (66), pages 46–71. DOI 10.1002/nme.1538
[Munjiza1998]A. Munjiza, K. R. F. Andrews (1998), NBS contact detection algorithm for bodies of similar size. International Journal for Numerical Methods in Engineering (43), pages 131–149. DOI 10.1002/(SICI)1097-0207(19980915)43:1<131::AID-NME447>3.0.CO;2-S
[Verlet1967]Loup Verlet (1967), Computer ``Experiments’’ on Classical Fluids. I. Thermodynamical Properties of Lennard-Jones Molecules. Phys. Rev. (159), pages 98. DOI 10.1103/PhysRev.159.98
[Luding2008]Stefan Luding (2008), Introduction to discrete element methods. In European Journal of Environmental and Civil Engineering.
[Wang2009]Yucang Wang (2009), A new algorithm to model the dynamics of 3-D bonded rigid bodies with rotations. Acta Geotechnica (4), pages 117–127. DOI 10.1007/s11440-008-0072-1 (fulltext)
[Omelyan1999]Igor P. Omelyan (1999), A New Leapfrog Integrator of Rotational Motion. The Revised Angular-Momentum Approach. Molecular Simulation (22). DOI 10.1080/08927029908022097
[Omelyan1998]Igor P. Omelyan (1998), Algorithm for numerical integration of the rigid-body equations of motion. Physical Review E (58), pages 1169–1172. DOI 10.1103/physreve.58.1169 (fulltext)
[delValle2023]Carlos Andr’es del Valle, Vasileios Angelidakis, Sudeshna Roy, Jos’e Daniel Mu~noz, Thorsten P”oeschel (2024), SPIRAL: An efficient algorithm for the integration of the equation of rotational motion. Computer Physics Communications (297), pages 109077. DOI
[Fincham1992]David Fincham (1992), Leapfrog Rotational Algorithms. Molecular Simulation (8), pages 165-178. DOI 10.1080/08927029208022474
[Neto2006]Natale Neto, Luca Bellucci (2006), A new algorithm for rigid body molecular dynamics. Chemical Physics (328), pages 259–268.
[Johnson2008]Scott M. Johnson, John R. Williams, Benjamin K. Cook (2008), Quaternion-based rigid body rotation integration algorithms for use in particle methods. International Journal for Numerical Methods in Engineering (74), pages 1303–1313.
[Addetta2001]G.A. D’Addetta, F. Kun, E. Ramm, H.J. Herrmann (2001), From solids to granulates - Discrete element simulations of fracture and fragmentation processes in geomaterials.. In Continuous and Discontinuous Modelling of Cohesive-Frictional Materials.
[Pfc3dManual30]ICG PFC3D (Particle Flow Code in 3D) Theory and Background Manual, version 3.0. Itasca Consulting Group.
[Hentz2003]Séebastien Hentz (2003), Modélisation d’une Structure en Béton Armé Soumise à un Choc par la méthode des Eléments Discrets. PhD thesis at Université Grenoble 1 – Joseph Fourier.
[Price2007]Mathew Price, Vasile Murariu, Garry Morrison (2007), Sphere clump generation and trajectory comparison for real particles. In Proceedings of Discrete Element Modelling 2007.
[Kuhl2001]E. Kuhl, G. A. D’Addetta, M. Leukart, E. Ramm (2001), Microplane modelling and particle modelling of cohesive-frictional materials. In Continuous and Discontinuous Modelling of Cohesive-Frictional Materials. (fulltext)
[Thornton1991]Colin Thornton, K. K. Yin (1991), Impact of elastic spheres with and without adhesion. Powder technology (65), pages 153–166.
[Thornton2000]Colin Thornton (2000), Numerical simulations of deviatoric shear deformation of granular media. Géotechnique (50), pages 43–53.
[Thornton2013]Colin Thornton, Sharen J. Cummins, Paul W. Cleary (2013), An investigation of the comparative behaviour of alternative contact force models during inelastic collisions. Powder Technology (233), pages 30-46. DOI 10.1016/j.powtec.2012.08.012
[Thornton2015]Thornton, Colin (2015), Granular dynamics, contact mechanics and particle system simulations. A DEM study. Particle Technology Series (24). DOI 10.1007/978-3-319-18711-2
[CundallStrack1979]P.A. Cundall, O.D.L. Strack (1979), A discrete numerical model for granular assemblies. Geotechnique (), pages 47–65.
[cgal]Jean-Daniel Boissonnat, Olivier Devillers, Sylvain Pion, Monique Teillaud, Mariette Yvinec Triangulations in CGAL. Computational Geometry: Theory and Applications (22), pages 5–19.
[Satake1982]M. Satake (1982), Fabric tensor in granular materials.. In Proc., IUTAM Symp. on Deformation and Failure of Granular materials, Delft, The Netherlands.
[Hentz2004a]S. Hentz, F.V. Donzé, L.Daudeville (2004), Discrete element modelling of concrete submitted to dynamic loading at high strain rates. Computers and Structures (82), pages 2509–2524. DOI 10.1016/j.compstruc.2004.05.016
[Hentz2004b]S. Hentz, L. Daudeville, F.V. Donzé (2004), Identification and Validation of a Discrete Element Model for Concrete. ASCE Journal of Engineering Mechanics (130), pages 709–719. DOI 10.1061/(ASCE)0733-9399(2004)130:6(709)
[Camborde2000a]F. Camborde, C. Mariotti, F.V. Donzé (2000), Numerical study of rock and Concrete behaviour by discrete element modelling. Computers and Geotechnics (27), pages 225–247.
[Donze1999a]F.V. Donzé, S.A. Magnier, L. Daudeville, C. Mariotti, L. Davenne (1999), Study of the behavior of concrete at high strain rate compressions by a discrete element method. ASCE J. of Eng. Mech (125), pages 1154–1163. DOI 10.1016/S0266-352X(00)00013-6
[Magnier1998a]S.A. Magnier, F.V. Donzé (1998), Numerical simulation of impacts using a discrete element method. Mech. Cohes.-frict. Mater. (3), pages 257–276. DOI 10.1002/(SICI)1099-1484(199807)3:3<257::AID-CFM50>3.0.CO;2-Z
[Donze1995a]F.V. Donzé, S.A. Magnier (1995), Formulation of a three-dimensional numerical model of brittle behavior. Geophys. J. Int. (122), pages 790–802.
[Donze1994a]F.V. Donzé, P. Mora, S.A. Magnier (1994), Numerical simulation of faults and shear zones. Geophys. J. Int. (116), pages 46–52.
[Hentz2005a]S. Hentz, F.V. Donzé, L.Daudeville (2005), Discrete elements modeling of a reinforced concrete structure submitted to a rock impact. Italian Geotechnical Journal (XXXIX), pages 83–94.
[Donze2004a]F.V. Donzé, P. Bernasconi (2004), Simulation of the Blasting Patterns in Shaft Sinking Using a Discrete Element Method. Electronic Journal of Geotechnical Engineering (9), pages 1–44.
[Kettner2011]Lutz Kettner, Andreas Meyer, Afra Zomorodian (2011), Intersecting Sequences of dD Iso-oriented Boxes. In CGAL User and Reference Manual. (fulltext)
[Pion2011]Sylvain Pion, Monique Teillaud (2011), 3D Triangulations. In CGAL User and Reference Manual. (fulltext)
[Calvetti1997]Calvetti, F., Combe, G., Lanier, J. (1997), Experimental micromechanical analysis of a 2D granular material: relation between structure evolution and loading path. Mechanics of Cohesive-frictional Materials (2), pages 121–163.
[Bagi2006]Katalin Bagi (2006), Analysis of microstructural strain tensors for granular assemblies. International Journal of Solids and Structures (43), pages 3166 - 3184. DOI 10.1016/j.ijsolstr.2005.07.016
[Brilliantov1996]Brilliantov, Nikolai V, Spahn, Frank, Hertzsch, Jan-Martin, P”oschel, Thorsten (1996), Model for collisions in granular gases. Physical review E (53), pages 5382.
[Weigert1999]Weigert, Tom, Ripperger, Siegfried (1999), Calculation of the Liquid Bridge Volume and Bulk Saturation from the Half-filling Angle. Particle & Particle Systems Characterization (16), pages 238–242. DOI 10.1002/(SICI)1521-4117(199910)16:5<238::AID-PPSC238>3.0.CO;2-E (fulltext)
[Willett2000]Willett, Christopher D., Adams, Michael J., Johnson, Simon A., Seville, Jonathan P. K. (2000), Capillary Bridges between Two Spherical Bodies. Langmuir (16), pages 9396-9405. DOI 10.1021/la000657y (fulltext)
[Herminghaus2005]Herminghaus, S. (2005), Dynamics of wet granular matter. Advances in Physics (54), pages 221-261. DOI 10.1080/00018730500167855 (fulltext)
[Rabinov2005]RABINOVICH Yakov I., ESAYANUR Madhavan S., MOUDGIL Brij M. (2005), Capillary forces between two spheres with a fixed volume liquid bridge : Theory and experiment. Langmuir (21), pages 10992–10997. (eng)
[Luding2008b]Luding, Stefan (2008), Cohesive, frictional powders: contact models for tension. Granular Matter (10), pages 235-246. DOI 10.1007/s10035-008-0099-x (fulltext)
[Zhou1999536]Y.C. Zhou, B.D. Wright, R.Y. Yang, B.H. Xu, A.B. Yu (1999), Rolling friction in the dynamic simulation of sandpile formation. Physica A: Statistical Mechanics and its Applications (269), pages 536–553. DOI 10.1016/S0378-4371(99)00183-1 (fulltext)
[Antypov2011]D. Antypov, J. A. Elliott (2011), On an analytical solution for the damped Hertzian spring. EPL (Europhysics Letters) (94), pages 50004. (fulltext)
[Ivars2011](2011), The synthetic rock mass approach for jointed rock mass modelling. International Journal of Rock Mechanics and Mining Sciences (48), pages 219 - 244. DOI 10.1016/j.ijrmms.2010.11.014
[Potyondy2004](2004), A bonded-particle model for rock. International Journal of Rock Mechanics and Mining Sciences (41), pages 1329 - 1364. DOI 10.1016/j.ijrmms.2004.09.011
[Radjai2011]Radjai, F., Dubois, F. (2011), Discrete-Element Modeling of Granular Materials. John Wiley & Sons. (fulltext)
[Schwager2007]Schwager, Thomas, Pöschel, Thorsten (2007), Coefficient of restitution and linear–dashpot model revisited. Granular Matter (9), pages 465-469. DOI 10.1007/s10035-007-0065-z (fulltext)
[Lambert2008]Lambert, Pierre, Chau, Alexandre, Delchambre, Alain, Régnier, Stéphane (2008), Comparison between two capillary forces models. Langmuir (24), pages 3157–3163.
[Mueller2003]Müller, Matthias, Charypar, David, Gross, Markus (2003), Particle-based Fluid Simulation for Interactive Applications. In Proceedings of the 2003 ACM SIGGRAPH/Eurographics Symposium on Computer Animation. (fulltext)
[Mueller2011]M”uller, Patric, P”oschel, Thorsten (2011), Collision of viscoelastic spheres: Compact expressions for the coefficient of normal restitution. Physical Review E (84), pages 021302.
[Soulie2006]Soulié, F., Cherblanc, F., El Youssoufi, M.S., Saix, C. (2006), Influence of liquid bridges on the mechanical behaviour of polydisperse granular materials. International Journal for Numerical and Analytical Methods in Geomechanics (30), pages 213–228. DOI 10.1002/nag.476 (fulltext)
[Mani2013]Mani, Roman, Kadau, Dirk, Herrmann, HansJ. (2013), Liquid migration in sheared unsaturated granular media. Granular Matter (15), pages 447-454. DOI 10.1007/s10035-012-0387-3 (fulltext)
[Richardson1954]Richardson, J. F.,, W. N. Zaki (1954), Sedimentation and fluidization: Part i. Trans. Instn. Chem. Engrs (32).
[RevilBaudard2013]Revil-Baudard, T., Chauchat, J. (2013), A two-phase model for sheet flow regime based on dense granular flow rheology. Journal of Geophysical Research: Oceans (118), pages 619–634.
[RevilBaudard2015]Revil-Baudard, T., Chauchat, J., Hurther, D., Barraud, P-A. (2015), Investigation of sheet-flow processes based on novel acoustic high-resolution velocity and concentration measurements. Journal of Fluid Mechanics (767, DOI=10.1017/jfm.2015.23), pages 1–30.
[Li1995]Li, L., Sawamoto, M. (1995), Multi-phase model on sediment transport in sheet-flow regime under oscillatory flow. Coastal engineering Japan (38), pages 157-178.
[Schmeeckle2007]Schmeeckle, Mark W., Nelson, Jonathan M., Shreve, Ronald L. (2007), Forces on stationary particles in near-bed turbulent flows. Journal of Geophysical Research: Earth Surface (112). DOI 10.1029/2006JF000536 (fulltext)
[Wiberg1985]Wiberg, Patricia L., Smith, J. Dungan (1985), A theoretical model for saltating grains in water. Journal of Geophysical Research: Oceans (90), pages 7341–7354.
[Dallavalle1948]J. M. DallaValle (1948), Micrometrics : The technology of fine particles. Pitman Pub. Corp.
[Monaghan1992]Monaghan, J.~J. (1992), Smoothed particle hydrodynamics. Annual Review of Astronomy and Astrophysics (30), pages 543-574. DOI 10.1146/annurev.aa.30.090192.002551
[Morris1997]Morris, Joseph P, Fox, Patrick J, Zhu, Yi (1997), Modeling Low Reynolds Number Incompressible Flows Using SPH. Journal of Computational Physics (136), pages 214-226. DOI
[Lucy1977]Lucy, L.~B. (1977), A numerical approach to the testing of the fission hypothesis. Astronomical Journal (82), pages 1013-1024. DOI 10.1086/112164 (fulltext)
[Monaghan1985]Monaghan, J.~J., Lattanzio, J.~C. (1985), A refined particle method for astrophysical problems. Astronomy and Astrophysics (149), pages 135-143. (fulltext)
[yade:doc]V. Šmilauer, E. Catalano, B. Chareyre, S. Dorofeenko, J. Duriez, A. Gladky, J. Kozicki, C. Modenese, L. Scholtès, L. Sibille, J. Stránský, K. Thoeni (2010), Yade Documentation. The Yade Project. (
[yade:manual]V. Šmilauer, A. Gladky, J. Kozicki, C. Modenese, J. Stránský (2010), Yade, Using and Programming. In Yade Documentation ( V. Šmilauer, ed.), The Yade Project , 1st ed. (fulltext) (
[yade:background]V. Šmilauer, B. Chareyre (2010), Yade DEM Formulation. In Yade Documentation ( V. Šmilauer, ed.), The Yade Project , 1st ed. (fulltext) (
[yade:reference]V. Šmilauer, E. Catalano, B. Chareyre, S. Dorofeenko, J. Duriez, A. Gladky, J. Kozicki, C. Modenese, L. Scholtès, L. Sibille, J. Stránský, K. Thoeni (2010), Yade Reference Documentation. In Yade Documentation ( V. Šmilauer, ed.), The Yade Project , 1st ed. (fulltext) (
[Tonon2005]Tonon, F. (2005), Explicit Exact Formulas for the 3-D Tetrahedron Inertia Tensor in Terms of its Vertex Coordinates. Journal of mathematics and statistics (1), pages 135-143. (fulltext)
[Lourenco1994]P B Lourenço 1994 Analysis of masonry structures with interface elements. theory and applications (fulltext) (Report No. 03-21-22-0-01, Delft University of Technology, Faculty of Civil Engineering)
[Hazzard2000]Hazzard, J.F, Young, R.P Simulating acoustic emissions in bonded-particle models of rock. International Journal of Rock Mechanics and Mining Sciences (37), pages 867-872. DOI 10.1016/S1365-1609(00)00017-4
[Hazzard2013]Hazzard, J. F., Damjanac, Branko Further investigations of microseismicity in bonded particle models. 3rd International FLAC/DEM Symposium‏, pages 1-11.
[Scholz2003]Scholz, C. H., Harris, R. A. (2003), The Mechanics of Earthquakes and Faulting. Cambridge University Press.
[Jackson2000]R. Jackson (2000), The dynamics of fluidized particles. Cambridge University Press.
[Maurin2018_VANSbasis]R. Maurin (2018), YADE 1D vertical VANS fluid resolution : Theoretical bases. Yade Technical Archive. (fulltext)
[Maurin2018_VANSfluidResol]R. Maurin (2018), YADE 1D vertical VANS fluid resolution : Fluid resolution details. Yade Technical Archive. (fulltext)
[Maurin2018_VANSvalidations]R. Maurin (2018), YADE 1D vertical VANS fluid resolution : validations. Yade Technical Archive. (fulltext)
[Berger1987]Berger, M. J., Bokhari, S. H. (1987), A Partitioning Strategy for Nonuniform Problems on Multiprocessors. IEEE Trans. Comput. (36), pages 570-580. DOI 10.1109/TC.1987.1676942 (fulltext)
[Fleissner2007]Fleissner, Florian, Eberhard, Peter (2007), Parallel Load Balanced Particle Simulation with Hierarchical Particle Grouping Strategies. In IUTAM Symposium on Multiscale Problems in Multibody System Contacts.