Linear Imperfect Interface

Description

This imperfect interface contact law assumes the normal and tangential tractions are linear and depend only on the normal and tangentatial displacement discontinuities, respectively:

      [math]\displaystyle{ T_n = D_n[u_n] }[/math]

      [math]\displaystyle{ T_t = D_t[u_t] }[/math]

where D_n and D_t are two interface parameters, which are infinite for a perfect interface (zero displacement discontinuity) and 0 for a debonded interface (zero traction). But this linear law would allow the two materials to interpenetrate, especially if D_n was low. To correct this issue, the traction law in the normal direction is allowed to be bilinear:

      [math]\displaystyle{ T_n = \left\{ \begin{array}{ll} D_{nt}[u_n] & {\rm \ if\ }[u_n]\gt 0 \\ D_{nc}[u_n] & {\rm \ otherwise} \end{array} \right. }[/math]

where D_nt and D_nc are separate interface parameters for the interface being in tension or compression.

Properties

The properties for this law are: