Mathematics and mechanics of granular materials J. M. HillA. P. S. Selvadurai OriginalPaper Pages: 1 - 9
The incremental response of soils. An investigation using a discrete-element model F. Alonso-MarroquínH. J. Herrmann OriginalPaper Pages: 11 - 34
Initial response of a micro-polar hypoplastic material under plane shearing Erich Bauer OriginalPaper Pages: 35 - 51
Some theoretical results about second-order work, uniqueness, existence and controllability independent of the constitutive equation René Chambon OriginalPaper Pages: 53 - 61
Perturbation solutions for flow through symmetrical hoppers with inserts and asymmetrical wedge hoppers G. M. CoxS. W. McCueJ. M. Hill OriginalPaper Pages: 63 - 91
Micromechanical constitutive modelling of granular media: Evolution and loss of contact in particle clusters B. S. GardinerA. Tordesillas OriginalPaper Pages: 93 - 106
A hyperbolic well-posed model for the flow of granular materials D. HarrisE. F. Grekova OriginalPaper Pages: 107 - 135
Formulation of non-standard dissipative behavior of geomaterials Mohammed HjiajWenxiong HuangScott W. Sloan OriginalPaper Pages: 147 - 165
Bifurcation analysis for shear localization in non-polar and micro-polar hypoplastic continua Wenxiong HuangMohammed HjiajScott W. Sloan OriginalPaper Pages: 167 - 184
Large-strain dynamic cavity expansion in a granular material V. A. Osinov OriginalPaper Pages: 185 - 198
Generalised homogenisation procedures for granular materials E. PasternakH. -B. Mühlhaus OriginalPaper Pages: 199 - 229
Some fundamental aspects of the continuumization problem in granular media John F. Peters OriginalPaper Pages: 231 - 250
Compression and shear of a layer of granular material A. J. M. Spencer OriginalPaper Pages: 251 - 264
An assessment of plasticity theories for modeling the incrementally nonlinear behavior of granular soils Claudio TamagninFrancesco CalvettiGioacchino Viggiani OriginalPaper Pages: 265 - 291
Micromechanic modeling and analysis of unsteady-state granular flow in a cylindrical hopper H. P. ZhuA. B. Yu OriginalPaper Pages: 307 - 320