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Centrifuge Modeling of Geotextile Reinforced Slopes

Centrifuge Modeling of Geotextile Reinforced Slopes. Pelin AKLIK, Wei WU.

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Centrifuge Modeling of Geotextile Reinforced Slopes

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  1. Centrifuge Modeling of Geotextile Reinforced Slopes Pelin AKLIK, Wei WU Abstract:Geotextile is being increasingly used for slope reinforcement. The failure mechanisms are important to make safe and economic design of geotextile reinforced slopes. Centrifuge modelling is a powerful tool for physical modelling in geotechnical engineering and offers the advantage to continue the test up to failure. In order to replicate the gravity induced stresses of a prototype structure in a 1/N reduced model, it is necessary to test the model in a gravitational field N times larger than that of prototype structure. In this paper, a series of model tests in a geotechnical centrifuge on geotextile reinforced slopes is presented. The aim is to identify the possible failure mechanisms. Three reinforced slope models were tested with a slope inclination of 65, 75, and 85 degrees having the same geometry within the model box. The geotextile reinforced slopes had the same height of 270mm and was built on a soil layer of the same properties. Dry sand was used in the tests. The model box has the following dimension: 440*155 mm in plan and 400 mm in height with a glass wall on the front side for visualization of the collapse during flight. The model box was subjected to increasing centrifugal acceleration until failure occurred. Photographs of the geotextile reinforced slope models in flight were taken with a digital camera and the deformation of geotextile reinforced slopes were evaluated with Particle Image Velocimetry (PIV). The data from the digital camera and webcam were stored in a laptop mounted near the central axis of the centrifuge. The recorded photographs were used to examine the pre-failure and post failure mechanisms of the reinforced slopes. Deformation pattern measured with PIV ß = 65° ß = 75° ß = 85° Centrifuge in Vienna • Conclusions • The required acceleration at slope failure decreases with increasing slope inclination, e.g. the accelerations for slopes with inclination of 65, 75 and 85 degree are 50g, 40g and 20g respectively. • The shape of the failure zone depends on the slope inclination. Whereas the failure zone of the slope with β=65˚ is limited to the upper part of the slope, the failure zone of the slope with β=85˚ encompasses the entire slope. • Slope failure is dictated by the tensile strength of geotextile rather than by pullout when geotextile is intersected by the failure surface. • PIV is an efficient tool to instrument the whole deformation field for model tests in centrifuge. Thgjhhghjh Technical specification of centrifuge Model of geotextile reinforced slope University of Natural Resources and Life Sciences, Vienna Department of Structural Engineering and Natural Hazards Institute of Geotechnical Engineering (IGT)

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