Research Outputs

Now showing 1 - 8 of 8
  • Thumbnail Image
    Publication
    Analysis of the geomechanical characterization of coarse granular materials using the parallel gradation method
    (Obras y Proyectos, 2020) ;
    Dorador, Leonardo
    The geotechnical characterization of coarse granular materials such as very coarse-grained soils, rockfills, mining waste rocks and related materials is one of the key themes in geotechnical engineering but least studied and developed. Although there are some geotechnical standards and accepted geotechnical practice, there is not a standard for size-scaling, which is a critical step in advanced stage engineering (i.e. detailed design) on large structures involving this kind of materials. Several size-scaling techniques are available for use, with advantages and disadvantages. Among these, the parallel gradation method PGM (also known as homothetic grain size distribution), is one of the current practices and used for more than 50 years, but surprisingly just a few studies have corroborated its capability, and under specific material types. This work assesses a detailed database covering the development of this method from its first uses up to now. The application of this method is analysed based mainly on the material maximum internal friction angle and the Marsal’s particle breakage index (Bg).
  • Thumbnail Image
    Publication
    Evaluation of rockburst energy capacity for the design of rock support systems for different tunnel geometries at El Teniente copper mine
    (The Southern African Institute of Mining and Metallurgy, 2022) ;
    Villalobos, S.
    ;
    Aguilera, L.
    Rockburst events have been a serious problem for many years in many mines worldwide, and in particular at El Teniente mine in Chile. El Teniente is the largest copper mine in the world, located in the Andes Cordillera where high stress levels are present due to intensing mining activity in addition to complex geology. Consequently, the study and management of the rockburst threat are necessary. In this work, the case of the Diablo Regimiento (DR) mine within El Teniente is studied. The energy capacity of dynamic support systems is determined for different tunnel geometries based on two kinetic methodologies, using data from DR. Initially, rockburst potential is determined by means of a stress analysis around different tunnel geometries through the boundary elements method. In the first methodology a yielding zone (YZ) is estimated for each excavation geometry using the finite element method FEM. The second methodology involves the definition and determination of a critical strain energy (SE) around each excavation geometry using a FEM numerical analysis. In both cases, peak particle velocity PPV is estimated by a scaling law, which is subsequently adjusted due to tunnel amplification effects. According to the results, and knowing the working energy capacity applied in DR mine, it was found that the values of energy capacity for the rock dynamic supports were better estimated by the YZ-PPV approach than by the SE approach.
  • Thumbnail Image
    Publication
    Experimental study of the fine particles effect on the shear strength of tuff zeolites
    (Pontificia Universidad CatĂ³lica de Chile, 2018) ;
    Leiva, Eladio A.
    ;
    Jerez, Ă“scar
    ;
    Poblete, Mauro E.
    The effect of fine particles on the zeolite shear strength is assessed for possible construction applications. A brief geological description of the zeolite is presented. Three groups of zeolite samples were prepared, namely a coarse material with no fines, a finer material with 3% of silt and a silty material with 15% of clay. Results from standard classification, compaction and compressibility tests are shown and explained. It was found that due to the low specific gravity, low values of density were obtained in compaction tests. Additionally, shear strength tests were performed, resulting in different response in terms of shear stress and horizontal and vertical displacements. The coarse zeolite followed a similar friction-dilation response as in feldspathic and quartz sands. However, addition of 3% of fines reduced significantly the zeolite shear strength. Furthermore, the finest material was tested under two different displacement rates, reflecting also marked differences in shear strength and stiffness.
  • Thumbnail Image
    Publication
    Study of the static and seismic performance of a geogrid reinforced soil wall as bridge abutment in ConcepciĂ³n
    (Obras y Proyectos, 2018)
    GonzĂ¡lez, Maribell
    ;
    ;
    MĂ©ndez, Alejandro
    ;
    Carrillo, Pablo
    The 27th February 2010 earthquake in central and south of Chile was a very strong test for recently constructed geosynthetics reinforced soil wall solutions as bridge abutments. This 8.8 moment magnitude subduction earthquake caused severe damage to several traditional reinforced concrete walls for bridge abutments. However, no significant damage was found in relatively new geosynthetics reinforced solutions. For that reason, it is important to review the design and construction employed in these projects. To this end, a representative case located close to the epicentre is described and studied. Moreover, information is provided regarding the foundation soils, design and construction sequence of the geosynthetics reinforcement used for bridge abutments. The foundation soils were poor, corresponding mainly to marine and fluvial deposits close to the stream and mouth of the Andalién River. The analysis covers the verification of static and seismic external and internal stability. In addition, global static and seismic analyses are carried out. The methods used for the analyses are limit equilibrium and pseudo-static following recommendations of the FHWA. Results show that the design was adequate to cope with such a strong seismic event in terms of external and internal stability. Nevertheless, it was found that the inclusion of piles prevented a global seismic failure of the geogrid reinforced soil walls as bridge abutment. Final comments and remarks are presented related to design and construction which may explain the favourable performance of geosynthetics reinforced structures under this strong subduction earthquake.
  • Thumbnail Image
    Publication
    Analysis of the effect of fines content and loading frequency on the shear modulus and damping ratio of gravels
    (Obras y Proyectos, 2021) ;
    Dorador, Leonardo
    ;
    Barrera, Carolina E.
    ;
    Rozas, Jorge
    The dynamic properties of coarse granular soils have been much less studied than in sands. From a database of 14 gravel samples subjected to cyclic triaxial tests, available relationships are studied and new proposed to estimate the normalised shear modulus G/Gmax and the damping ratio D as a function of shear strain γ. The effect of confining stress, fines content, uniformity coefficient and loading frequency on the variation of G/ Gmax and D versus γ is analysed. It is obtained that G/Gmax is dependent on confinement, but not on loading frequency. 85.6% of the data converge in an error band of less than 25% for the proposed formulation. The damping D does depend on fines content as well as confinement and loading frequency. The proposed formulation for D has a 56% probability of having errors less than 25%.
  • Thumbnail Image
    Publication
    Scalping techniques in geomechanical characterization of coarse granular materials
    (Obras y Proyectos, 2020) ;
    Dorador, Leonardo
    The study of materials with large particle size has been a great challenge in geotechnical engineering. Despite the current work around the world using coarse-grained materials CGM in rockfill dams and mining waste rock dumps, for instance the geotechnical characterization of these materials is still an important issue in geotechnical engineering practice which deserve more research. There are standards covering CGM in a few particular applications and scaling methods have been proposed to deal with large particle sizes. However, scaling methods are appropriate only under certain conditions. The scalping techniques consist in a simple approach for the geotechnical characterization of CGM. In this article, the scalping techniques analysed are divided in: the scalping method, the matrix method and the scalping/replacement, which are studied in detail in terms of its effectiveness, focusing on the geomechanical characterization of CGM. As a main conclusion, these three techniques are limited in its use under small scalping ratios (3 < r < 8) which is the ratio of maximum particle size of both original and scalped gradation. Finally, recommendations for the use of percentages and ratio of scalping are provided.
  • Thumbnail Image
    Publication
    Pipe axial displacements from a monitored pipeline connected to a district heating network
    (Proceedings of Institution of Civil Engineers: Energy, 2022)
    Hay, Stefan
    ;
    Weidlich, Ingo
    ;
    Wolf, Ingo
    ;
    The development of a monitored district heating piping system has allowed the study of axial displacement variations in a buried pipeline. This piping system includes four instrumented sections of piping within an in use district heating network. There are also different conditions under testing such as thickness of expansion cushions, temperature ranges and bedding soil types. The pipe axial displacements were on-line monitored by means of extensometers in six positions along each of the four sections of the pipeline. Measured maximum pipe axial displacements were 24 and 25 mm in the corners of the 41 m long monitored pipelines, while estimated values were 23 mm using current recommendation procedures and 27 mm using calibrated commercial computer programs. One temperature unloading-reloading caused displacements to not return to the same values as before, but around 3 mm smaller. Therefore, several unloading-reloading temperature cycles may affect the pipe deformation behaviour in the short and long term. © 2021 Published with permission by the ICE under the CC-BY 4.0 license
  • Thumbnail Image
    Publication
    AnĂ¡lisis numĂ©rico de la respuesta sĂ­smica de excavaciones sostenidas con muro BerlinĂ©s en arena
    (Obras y proyectos, 2015)
    Jara, Mauricio
    ;
    ;
    Corral, Gonzalo
    ;
    Taiba, Ă“scar
    Se presenta un anĂ¡lisis de respuesta sĂ­smica de excavaciones usando un programa comercial de elementos finitos que considera la interacciĂ³n suelo-muro y el efecto de las etapas constructivas en arena BĂ­o BĂ­o durante el evento sĂ­smico del 27F/2010. Los resultados permiten concluir que puntos ubicados en el perĂ­metro superior de la excavaciĂ³n pueden alcanzar valores de aceleraciĂ³n artificial mĂ¡xima cercanos a 0.52g y factores de amplificaciĂ³n cercanos a 10, con desplazamientos horizontales relativos mayores a 20 mm. Los espectros de respuesta artificiales obtenidos muestran variaciones pequeñas en el periodo fundamental del sistema hasta una profundidad de 12 m. Finalmente, el uso del parĂ¡metro Ar recomendado por la normativa nacional NCh3206 (2010) resulta razonable para excavaciones no superiores a 5 m y para aquellas que superan los 10 m el efecto destructivo del sismo se ve incrementado por el contexto geotĂ©cnico local y perturbaciones del sistema analizado.