Quasi-static cyclic two-way out-of-plane bending tests and analytical models comparison for URM walls

Abstract

Out-of-plane failure is one of the most important mechanisms for unreinforced ma-sonry (URM) structures to be prevented in the seismic areas. The one-way out-of-plane bend-ing failure mechanism has been studied by several authors. The two-way bending failure mechanism has received much less attention and only few formulations for specific cases are available in standards and in the literature.
In order to investigate the two-way bending failure mechanism, four full-scale URM walls were tested quasi-statically. Both calcium silicate and clay brick masonry typical of Dutch building were tested. In comparison with the experimental results, a critical evaluation of the available analytical models proposed by Eurocode 6, the Australian standards and the simpli-fied macroblock approach by Vaculik and Griffith is presented. Despite some limitation in its application and the underestimation in the results, the most promising analytical formulation is the one provided by the Australian standards. In order to provide a basis for the develop-ment of an improved formulation for two-way bending, a parametric study on the Australian standard formulation is presented. The parameters that mostly influence the prediction of the bending capacity of the wall are the flexural strength of masonry, the vertical edges rotation-al restrain coefficient, the aspect ratio, and the wall thickness. On the contrary, the paramet-ric study also shows that variations of the overburden do not lead to variation in terms of capacity.