Anisotropic Strength of Granular Material Considering Fabric Evolution
AUTOR(ES)
Liu, Yang
FONTE
Lat. Am. j. solids struct.
DATA DE PUBLICAÇÃO
08/04/2019
RESUMO
Abstract The effect of fabric anisotropy on strength has not been considered in most strength criterions for granular material. Some criterions can describe the variation of material strength with stress-induced anisotropy, but micro-mechanism and physical meanings are undefined. Some criterions consider the effect of fabric anisotropy, but the evolution of fabric is ignored during loading by assuming a constant fabric tensor. Based on strength mechanical characteristics of granular material, in this paper, the relationship between macro stress and micro contact force of granular material is derived by micromechanics. Then, the concept of true stress tensor is proposed. An anisotropic strength criterion of granular material considering fabric evolution is established and its applicability is validated by comparing with test results for different granular materials. The analysis results indicate that the proposed anisotropic criterion can be utilized to describe the strength feature of anisotropic granular materials, which gives a way for the cause analysis of the strength of granular materials from the perspective of Microscopic mechanism.
Documentos Relacionados
- Material and geometric nonlinear analysis of reinforced concrete frame structures considering the influence of shear strength complementary mechanisms
- Comparison of tensile strength of different carbon fabric reinforced epoxy composites
- Study of an anisotropic polymeric cellular material under compression loading
- Dielectric microwave absorbing material processed by impregnation of carbon fiber fabric with polyaniline
- Yield Surfaces of Material Composed of Porous and Heterogeneous Microstructures Considering Phase Debonding