In this research, first, a brief review of heap leaching structures is presented. Then, some engineering properties of natural and geo-synthetic materials of a leaching heap bed are introduced. Next, physical models of these structures are tested using a tilting table, and the apparatus's ''scale factor'' for the evaluation of the probable slides in these structures is determined. Analyses have shown that the ''scale factor'' of the ''factor of safety'' for the above physical models against slide approximately equals 1; therefore, the slide mechanism in such structures can be studied using tilting table experimental models. On this basis, 12 physical models of leaching heaps were made and their stability checked with the apparatus. Next, using Morgenstern and Price method, the stability of the above models was evaluated and the analytical and physical results were compared for the verification of the limit equilibrium approaches. Comparisons have shown that the error of such methods in the stability analyses of leaching heaps is \8 %. As a real case study, the Shahr-e-Babak heap leaching structure failure and its stabilization methods have been presented. In this project, tensile cracks occurred in the upper section of the heap after loading the second ore lift, and a part of it slid. The heap was stabilized using a double textured geo-membrane liner and safety berms.