Bibliographic citations
Pacheco, E., (2018). Investigaciones geotécnicas de estabilidad de taludes en macizos rocosos de pizarras para el mejoramiento de seguridad energética del país y desarrollo del gasoducto sur peruano [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/15710
Pacheco, E., Investigaciones geotécnicas de estabilidad de taludes en macizos rocosos de pizarras para el mejoramiento de seguridad energética del país y desarrollo del gasoducto sur peruano [Tesis]. : Universidad Nacional de Ingeniería; 2018. http://hdl.handle.net/20.500.14076/15710
@mastersthesis{renati/709456,
title = "Investigaciones geotécnicas de estabilidad de taludes en macizos rocosos de pizarras para el mejoramiento de seguridad energética del país y desarrollo del gasoducto sur peruano",
author = "Pacheco Navarrete, Edwin Américo",
publisher = "Universidad Nacional de Ingeniería",
year = "2018"
}
Work for slope stability It develops a methodology proposed in the thesis as follows, first the design of the slope is considered the economic and social factors, Then the collection of field information, we went to the major structures, classification of the rocky Mass, hydrogeological units, construction of the geotechnical model and finally the slope design. Within the above mentioned They include the analysis of the safety factor of the Rocky massif and to do this, laboratory tests of soils and rocks should be carried out to find two very important variables such as: Cohesion and the angle of friction. All of the above would not be possible if the collection of field information was far from reality, that is to say that mistakes were made which would lead to information bias. Therefore, for the design of slopes to know the geotechnical properties is of paramount importance, because with the geotechnical information we can determine the angle of inclination that finally will have the slope. The thesis is divided into Four Chapters, the first deals with generalities such as Bibliographical background, the problematic, the formulation of the problem, justification, the Objectives and the hypothesis with their variables and indicators. The second chapter develops the conceptual framework with The design of the slope, through a summary as a conclusion of the design of slopes of four authors as Read, 2010, Duncan, 2004 and Ramírez & Alejano, 2004 and Hoek & Bray (Expert authorities in the design of slopes at world level); likewise It describes the geological model that allows the development of the first field work by means of which we characterize the rocky massif using the tools of the geology at world level. As Third Item The structural model develops the major structures such as failures and minor structures such as joints, structures that condition the stability of the Rocky massif; fourth Item Model of the Rocky massif, it develops the properties index, properties and the classification of the Rocky massif according to the RMR of Bienawski [Reference 4], and the GSI of Hoek; Fifth Item Hydrogeological model, develops as it can affect the groundwater the stability of the slope; Sixth Item Geotechnical model, collects all the information collected in the Predecessor items, information with which we gestate the slope face angle, the size of the bench and we can have the final slope model. Seventh Item Methods of slope design in which the deterministic and statistical methods are developed with the help of the stereograms to determine the existence of planar breaks, in wedge and by tipping; Eighth Item Movement monitoring, here it develops the how to proceed to control the displacement of the slopes over time; In The Third Chapter Research methodology with the type of research, method, design, population, sample, information gathering techniques and the Developer from A case study using as reference the slope located in the point kilometre PK 262 + 520, which applies everything developed in the chapters II.
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