Bibliographic citations
Becerra, E., (2024). Análisis comparativo de estabilidad de taludes mediante las ecuaciones de equilibrio límite: método de morgenstern-price, spencer, sarma [Universidad Católica Santo Toribio de Mogrovejo]. http://hdl.handle.net/20.500.12423/7462
Becerra, E., Análisis comparativo de estabilidad de taludes mediante las ecuaciones de equilibrio límite: método de morgenstern-price, spencer, sarma []. PE: Universidad Católica Santo Toribio de Mogrovejo; 2024. http://hdl.handle.net/20.500.12423/7462
@misc{renati/583839,
title = "Análisis comparativo de estabilidad de taludes mediante las ecuaciones de equilibrio límite: método de morgenstern-price, spencer, sarma",
author = "Becerra Carrillo, Edgar Alonso",
publisher = "Universidad Católica Santo Toribio de Mogrovejo",
year = "2024"
}
The purpose of this research is to compare the equations of limit equilibrium Morgenstern-Price, Spencer, Sarma applied to the stability of the slope of Chalpon hill, district of Motupe and to look for a solution of slope stabilization, the safety factor of the slope will be obtained by modeling in the Slide software, The data that the software needs are the topographic profile of the slope, the cohesion, friction angle and specific weight of the materials that conform it, to find these data some laboratory tests must be done how the shear test, the specific weight test and the rock compression test. The rock massif was classified by means of Bieniawski indexes (R.M.R) with indexes from 47% to 63% while quality index “Q“ (Barton's Q) ranged between 0.325 to 2.375. Six profiles were elaborated and each profile with three scenarios, of which four profiles had a safety factor lower than 1.3, and stability solutions were chosen for profile “B“ using backfill material, for profile “C“ 7 micropiles of 5 m with a diameter of 13 cm were considered, distributed every 1.5 m transversely and in the axis of the profile “C“. 5 m transverse and in the longitudinal axis you are distributed every 1 m, for profile “D“ also needs a retaining wall, and should be filled as shown in the detail with affirmed of the same characteristics as profile C, for profile E is needed 9 micropiles of 13 cm in diameter and 4 m in length and in the longitudinal axis you are distributed every 1 m, all micro piles will be nailed perpendicular to the ground. The solution will benefit that there will be no sliding of rocks or land, which will maintain the shape of the hill, thus avoiding the movement of earth or debris due to landslides.
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