Evolving Elastic and Plastic Fabric Anisotropy in Granular Materials: Theoretical and Applied Implications
In this paper a relationship between elastic anisotropy, as typically
observed in clayey soils subjected to shear wave propagation tests, and plastic
anisotropy, detected at yielding and leading to rotated yield loci, is proposed.
Furthermore, elastic and plastic anisotropies exhibit an evolving character, as a
consequence of the evolution of the fabric of the material induced, for example,
by irreversible straining. First, the theoretical implications of the above evolving
character of fabric, which leads to a new form of anisotropic elasto-plastic
coupling, are investigated. Then, a strategy is proposed to take advantage of
such a coupling to more effectively initialise the internal variables of any nonisotropic
hardening plasticity model. This latter aspect is of crucial importance
when numerically analysing the response of a whole deposit of soil, as for each
sub-stratum it is mandatory to identify the initial orientation of the yield locus.