Azéma Emilien, Radjaï Farhang, Saint-Cyr Baptiste, Delenne Jean-Yves, Sornay Philippe
Université Montpellier 2, CNRS, LMGC, Cc 048, Place Eugène Bataillon, F-34095 Montpellier Cedex 05, France.
Phys Rev E Stat Nonlin Soft Matter Phys. 2013 May;87(5):052205. doi: 10.1103/PhysRevE.87.052205. Epub 2013 May 22.
We use three-dimensional contact dynamics simulations to analyze the rheological properties of granular materials composed of rigid aggregates. The aggregates are made from four overlapping spheres and described by a nonconvexity parameter depending on the relative positions of the spheres. The macroscopic and microstructural properties of several sheared packings are analyzed as a function of the degree of nonconvexity of the aggregates. We find that the internal angle of friction increases with the nonconvexity. In contrast, the packing fraction first increases to a maximum value but declines as the nonconvexity increases further. At a high level of nonconvexity, the packings are looser but show a higher shear strength. At the microscopic scale, the fabric and force anisotropy, as well as the friction mobilization, are enhanced by multiple contacts between aggregates and interlocking, thus revealings the mechanical and geometrical origins of shear strength.
我们使用三维接触动力学模拟来分析由刚性聚集体组成的颗粒材料的流变特性。聚集体由四个重叠球体构成,并通过一个取决于球体相对位置的非凸度参数来描述。分析了几种剪切填充体的宏观和微观结构特性与聚集体非凸度的函数关系。我们发现,内摩擦角随非凸度增加而增大。相比之下,填充率首先增加到最大值,但随着非凸度进一步增加而下降。在高非凸度水平下,填充体更松散,但具有更高的剪切强度。在微观尺度上,聚集体之间的多次接触和互锁增强了结构和力的各向异性以及摩擦力的 mobilization,从而揭示了剪切强度的力学和几何起源。
