Analysis of infilled frames using A coupled finite element and boundary element solution scheme

The behaviour of infilled frames subjected to horizontal loads is analysed by an iterative numerical procedure. The stiffness of the structural system is determined with variations in geometrical and mechanical characteristics.

The analysis is carried out utilizing the boundary element method (BEM) for the infill and opportunely dividing the frame into finite elements, so as to transform the mutual interactions of the two subsystems into stresses distributed along the boundary for the infill and into nodal actions for the frame.

This makes it possible to take into account the separation arising between the two substructures when mutual tensile stresses are involved.

At first, infills without openings are considered, using BEM with constant elements for two-dimensional problems in elasticity.

The results are compared with those obtained using the simplified equivalent pin-jointed strut model, which is very common in the literature.

Subsequently, using an analogous procedure, panels with openings are considered. For these systems, for which no satisfactory simplified models exist, the loss of stiffness in relation to the size of the opening is evaluated.