Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
A lattice-gas automaton of hydrodynamics was used to calculate the kinematics of non-cohesive granular materials during 3 different complex two-dimensional problems: granular pile, granular flow in a vertical channel and granular flow in a parallel/converging silo. In the model, collisions and dissipation of particles were taken into account. The simulation results were qualitatively compared with experimental results.
Słowa kluczowe
Rocznik
Tom
Strony
21--37
Opis fizyczny
Bibliogr. 39 poz., il.
Twórcy
autor
- Gdańsk University of Technology, Faculty for Civil and Environmental Engineering, ul. Narutowicza 11/12, 80-952 Gdańsk, Poland
autor
- Gdańsk University of Technology, Faculty for Civil and Environmental Engineering, ul. Narutowicza 11/12, 80-952 Gdańsk, Poland
Bibliografia
- Alonso J. J., Herrmann H. J. (1996), Shape of the Tail of a Two-Dimensional Sandpile, Physical Review Letters, 76, 26, 4911–4914.
- Bauer E. (1996), Calibration of a Comprehensive Hypoplastic Model for Granular Materials, Soils and Foundations, 36, 1, 13–26.
- Brinkgreve R. (1994), Geomaterial Models and Numerical Analysis of Softening, Dissertation, Delft University, 1–153.
- Chopard B., Droz M. (1998), Cellular Automata Modelling of Physical Systems, Cambridge University Press.
- Cowin S. C., ComfortW. J. (1982), Gravity-Induced Density Discontinuity Waves in Sand Columns, J. of Applied Mechanics, 49, 497–500.
- Darve F., Flavigny E., Megachou M. (1995), Yield Surfaces and Principle of Superposition Revisited by Incrementally Non-Linear Constitutive Relations, Int. J. Plasticity, 11, 8, 927–948.
- Frisch U., Hasslacher B., Pomeau Y. (1986), Lattice-Gas Automata for the Navier-Stokes Equation, Physical Review Letters, 56, 1505–1508.
- Futterer G. (1991), Untersuchungen zum Schnellen Fließen von Trockenen, Kohasionslosen Schuttgutern in Konvergenten Schachten. Dissertation, Karlsruhe University.
- Gudehus G. (1996), A Comprehensive Constitutive Equation for Granular Materials, Soils and Foundations, 36, 1, 1–12.
- Gutfraind R., Pouliquen O. (1996), Study of the Origin of Shear Zones in Quasi-Static Vertical Chute Flows by using Discrete Particle Simulations, Mechanics of Materials, 24, 273–285.
- Haff P. K. (1983), Grain Flow as a Fluid-Mechanical Phenomenon, J. Fluid Mech, 134, 401–430.
- Kafui K. D., Thornton C. (1997), Some Observations on Granular Flow in Hoppers and Silos, [in:] Powders and Grains (eds.: Behringer and Jenkins), Balkema, Rotterdam, 511–514.
- Katsura N., Shimosaka A., Shirakawa Y., Hidaka J. (2001), Simulation for Flow Behaviour of Vibrating Granular Materials Using Cellular Automata, [in:] Powders and Grains (ed. Kishino, Swets and Zeitlinger), Lisse, 525–528.
- Kozicki J., Tejchman J. (2001), Simulations of Granular Flow in Silos with a Cellular Automata Model, The International J. of Storing, Handling and Processing Powder, 13, 3, 267–275.
- Kozicki J., Tejchman J. (2005a), Application of a Cellular Automaton to Simulations of Granular Flow in Silos, Granular Matter (under press).
- Kozicki J., Tejchman J. (2005b), Simulations of Flow Patterns in Silos with a Cellular Automation – part 2, Task Quarterly, 9, 1, 103–115.
- Lade P. V. (1977), Elasto-Plastic Stress-Strain Theory for Cohesionless Soil with Curved Yield Surfaces, Int. J. Solid Structures, 13, 1019–1035.
- Lanier J., Caillerie D., Chambon R. (2004), A General Formulation of Hypoplasticity, Int. J. Numer. Anal. Methods in Geomech., 28, 15, 1461–1478.
- Lavrikov S. W., Revuzhenko A. F. (1990), Calculations of Shear Localization in Bulk Solids in Radial Channels, Fiz.-Tekh. Probl. Razrab. Polezn, 1, 3–9 (in Russian).
- Litwiniszyn J. (1956), Application of the Equation of Stochastic Processes to Mechanics of Loose Bodies, Archives of Applied Mechanics, 8, 4, 393–411.
- Loret B., Prevost J. H. (1990), Dynamic Strain Localisation in Elasto-Visco-Plastic Solids, Part 1, General Formulation and One-Dimensional Examples, Comp. Appl. Mech. Eng., 83, 247–273.
- Luding S., Duran J., Clement E., Rejchenbach J. (1996), Computer Simulations and Experiments of Dry Granular Media: Polydisperse Disks in a Vertical Pipe, Proc. 5th World Congress of Chemical Engineering, San Diego, 5, 325–330.
- Lun C. K. K., Savage S. B. (1987), A Simple Kinetic Theory for Granular Flow of Rough, in Elastic Spherical Particle, J. Appl. Mech, 54, 47–53.
- Maier T. (2003), Non-Local Modelling of Softening in Hypoplasticity, Comput. Geotech, 30, 7, 599–610.
- Michalowski R. L. (1984), Flow of Granular Material Through a Plane Hopper, Powder Technology, 39, 29–40.
- Michalowski R. L. (1990), Strain Localization and Periodic Fluctuations in Granular Flow Processes from Hoppers, Geotechnique, 40, 3, 389–403.
- Muhlhaus H.-B. (1990), Continuum Models for Layered and Blocky Rock, [in:] Comprehensive Rock Engineering (eds: J. A. Hudson and Ch. Fairhurst), Pergamon Press, 2, 209–231.
- Pamin J. (1994), Gradient-Dependent Plasticity in Numerical Simulation of Localisation Phenomena, PhD Thesis, Delft University, 1–134.
- Peng G., Herrmann H.J. (1994), Density Waves of Granular Flow in a Pipe Using Lattice Gas Automata, Phys. Rev., 49, 3, 1796–1799.
- Pestana J. M., Whittle A. J. (1999), Formulation of a Unified Constitutive Model for Clays and Sands, In. J. Num. Anal. Meth. Geomech., 23, 1215–1243.
- Rojek J. (2003), Numerical Modelling and Simulation of the Moulding Process of Sand Forms with a Method of the Lost Model, Informatyka w Technologii Materiałów, 3, 113–125.
- Sluys L. Y. (1992),Wave Propagation, Localisation and Dispersion in Softening Solids, PhD Thesis, Delft University of Technology.
- Tejchman J., Wu W. (1993), Numerical Study on Shear Band Patterning in a Cosserat Continuum, Acta Mechanica, 99, 61–74.
- Tejchman J., Gudehus G. (2001), Shearing of a Narrow Granular Strip with Polar Quantities, J. Num. and Anal. Methods in Geomechanics, 25, 1–18.
- Tejchman J. (2004), Influence of a Characteristic Length on Shear Zone Thickness in Hypoplasticity with Different Enhancements, Computers and Geotechnics (in print).
- Ulm S. (1952), Random Processes and Transformations, Proc. Int. Con. Math., 2, 264–275.
- Vermeer P. (1982), A Five-Constant Model Unifying Well-Established Concepts, Proc. Int. Workshop on Constitutive Relations for Soils (eds. G. Gudehus, F. Darve and I. Vardoulakis), Balkema, 175–197.
- von Wolffersdorff P. A. (1996), A Hypoplastic Relation for Granular Materials with a Predefined Limit State Surface, Mechanics Cohesive-Frictional Materials, 1, 251–271.
- Zhou J. G. (2004), Lattice Boltzman Methods, Springer Verlag.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT3-0020-0003