- 作者:N.P. Kruyta ; n.p.kruyt@utwente.nl" class="auth_mail" title="E-mail the corresponding author ; L. Rothenburgb
- 关键词:Granular materials ; Dilatancy ; Micromechanics ; Fabric
- 刊名:Journal of the Mechanics and Physics of Solids
- 出版年:2016
- 出版时间:October 2016
- 年:2016
- 卷:95
- 期:Complete
- 页码:411-427
- 全文大小:1495 K
The dependence of the dilatancy rate on the shear strength and the fabric tensor has been investigated, based on the results of the simulations employing a dense and a loose initial system. The dilatancy rate depends in a complex, non-unique way on the shear strength, while the dependence on the fabric tensor is more amenable to analytical description. Two micromechanical mechanisms of dilatancy have been identified: (i) dilatancy due to deformation of loops that are determined by the interparticle contact network and (ii) dilatancy due to topological changes in the interparticle contact network that correspond to the creation or disruption of contacts. For the first mechanism the anisotropy in the contact network is the primary parameter, while for the second mechanism the average number of contacts per particle is the primary parameter.
A fabric-based micromechanical relation for the dilatancy rate has been formulated that describes these identified mechanisms. Parameters present in this relation are determined by fitting this relation to the results of the Discrete Element Method simulations, using combined data for the dense and the loose initial system. Employing these fitted coefficients, good agreement is obtained between the results of the simulations and the predictions of the micromechanical dilatancy relation.