THE PRESSURE DEPENDENCE OF ELASTIC STIFFNESS OF GRANULAR MATERIALS: A BINARY MODEL IN EFFECTIVE MEDIUM THEORY
Granular media have many interesting and unusual properties,different from those of either solids or liquids.The study of sound propagation and nonlinear elasticity in unconsolidated granular matter is an interest topic.In the simplest experiments,a packing of spherical glass beads is confined under hydrostatic conditions and the compression and shear sound speeds Vp and Vs are measured as functions of static confining pressure P.Experimentally it is exhibit that the bulk,modulus K and shear modulus G of a granular assembly of elastic spheres increase with pressure p faster than the Pv3.This result is law predicted by effective medium theory (EMT) based on Hertz-Mindlin contact forces.To understand the origin of these discrepancies,we treating contact stiffness as a variable,extend the effective medium approximation used to obtain elastic stiffness of a random pack of spherical grains.More specifically,we show that EMT can describe the moduli pressure dependence if introducing a binary model for grain contacts and a parameter ft,which represents the amount of non-slipping contacts in the mixture.The simple extension of the theory provides a better fit for mamy laboratory test result.
Granular media Effective medium theory (EMT) Nonlinear elasticity
W.Zheng S.L.Xu S.S.Hu
Department of modern mechanics, CAS Key Laboratory Mechanical Behavior and Design of Materials,University of Science and Technology of China,Hefei,Anhui 230026,China
国际会议
The Third International Conference on Heterogeneous Material Mechanics(第三届国际非均匀材料力学会议)
上海
英文
63-66
2011-05-22(万方平台首次上网日期,不代表论文的发表时间)