Abstract
Buttresses constitute a spatial supporting construction (SSC) that can convey large loads coming from the pressure of unstable soil on deeper, more stable layers to make it safer with respect to the load-bearing capacity. They make the counteraction against the pressure, which initiates sliding when the forces to move the landslide body, not balanced by the internal frictional forces in the soil. Some specific features of known construction elements were used in the buttress, such as sheet pile walls and drilled piles. Although beneficial in this case, the specific shape of the axis of the wall made from piles and sheets formed a wave created from circle sections (in plan view). Thus, a stable steel buttress was formed. The interaction of the buttress with the soil mass pressure over it, which stabilises the landslide mass, was considered. To further strengthen the buttress, a reinforced concrete slab was added on the upper edge of the thin walls of sheets and piles, thereby integrating and stiffening the whole structure. The application of the concrete slab enabled the use of the stabilisation role of additional forces (become from its weight and above laysoil)to stabilise the buttress. The results of this study achieved a substantial stabilising effect, increasing maximal forces reacting against the pressure of the unstable soil block. Assumptions madeand the applied calculations confirm thestability of the buttress (by increasing the stability of the whole slump block of landslide) are described. Two cases are presented to illustrate the stabilisation and control of movement in which the block body moves along inadvance of the determined slip surface.
Highlights
The knowledge of the landslide risk is not common enough in society
The case described in this study presents efforts to control the slope threatening a housing estate located on a hill
The buttress should be constructed at the base of the landslide; this is not always possible, especially when there is a river at the base of the slope that constantly erodes the forefront of the landslide, making it is necessary to look for other solutions
Summary
The knowledge of the landslide risk is not common enough in society. Some people, and in some cases, designers of earth structures are not fully aware of the scale of this risk.Gunther et al [1] analysed landslides on the basis of geotechnical data from different European countries. This problem was discussed by Farzaneh et al [17] and Hajiazizi and Mazaheri [18], and the problems in the calculation were similar to those presented for complex steel, concrete, and soil constructions Each of these cases demonstrates that the control of landslides is an engineering problem that has not been enough solved until now. (iii) in the case of application of anchors, difficulty in obtaining stable anchoring in some soils and/or weathered rock layers, and (iv) the occurrence of rivers or streams along the base of slopes will hasten the erosion of the landslide forefront and render it impossible to construct an effective buttress in this location. This publication presents general assumptions of SSC stability analysis based on examples of constructions of the SSC type executed and checked in situ
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