Saturación de muestras de suelo fino para ensayos triaxiales usando CO2 Y vacío

Sergio D. Correa; Andrés F. Ramírez; Joan M. Larrahondo; Hermes A. Vacca

Saturación de muestras de suelo fino para ensayos triaxiales usando CO₂ Y vacío

Sergio D. Correa, Andrés F. Ramírez, Joan M. Larrahondo, Hermes A. Vacca

Universidad Javeriana

Producción: Contribución a una conferencia › Paper › revisión exhaustiva

Resumen

Prior to shearing, CU and CD triaxial compression test samples require saturation of the specimens. Usually, saturation is a long and demanding process, especially when dealing with fine-grained soil samples. The most widely used saturation method to date is backpressuring, which was proposed in the mid-twentieth century. Since then, other techniques have been proposed for coarse-grained soils using carbon dioxide (CO2) and negative pore pressures delivered via vacuum. However, literature on the application of these techniques for fine-grained soils is scarce. This article describes the use of a composite technique for applying negative pore pressures followed by CO2 injection in reconstituted samples of fine-grained soil. Results show a significant reduction in the time required for saturation, while meeting the traditional criterion of Skempton's B-parameter equal to or higher than 0.95.

Título traducido de la contribución	Saturation of fine-grained triaxial test soil samples using CO2 and vacuum pressures
Idioma original	Español
Estado	Publicada - 2016
Evento	2nd International Specialized Conference on Soft Rocks, ICSR 2016 - Cartagena, Colombia Duración: 06 oct. 2016 → 07 oct. 2016

Conferencia

Conferencia	2nd International Specialized Conference on Soft Rocks, ICSR 2016
País/Territorio	Colombia
Ciudad	Cartagena
Período	06/10/16 → 07/10/16

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@conference{8e679920823b4eea831ed36d335e36af,

title = "Saturaci{\'o}n de muestras de suelo fino para ensayos triaxiales usando CO2 Y vac{\'i}o",

abstract = "Prior to shearing, CU and CD triaxial compression test samples require saturation of the specimens. Usually, saturation is a long and demanding process, especially when dealing with fine-grained soil samples. The most widely used saturation method to date is backpressuring, which was proposed in the mid-twentieth century. Since then, other techniques have been proposed for coarse-grained soils using carbon dioxide (CO2) and negative pore pressures delivered via vacuum. However, literature on the application of these techniques for fine-grained soils is scarce. This article describes the use of a composite technique for applying negative pore pressures followed by CO2 injection in reconstituted samples of fine-grained soil. Results show a significant reduction in the time required for saturation, while meeting the traditional criterion of Skempton's B-parameter equal to or higher than 0.95.",

author = "Correa, {Sergio D.} and Ram{\'i}rez, {Andr{\'e}s F.} and Larrahondo, {Joan M.} and Vacca, {Hermes A.}",

note = "Publisher Copyright: {\textcopyright} 2016 International Society for Rock Mechanics. All rights reserved.; 2nd International Specialized Conference on Soft Rocks, ICSR 2016 ; Conference date: 06-10-2016 Through 07-10-2016",

year = "2016",

language = "Espa{\~n}ol ",

}

TY - CONF

T1 - Saturación de muestras de suelo fino para ensayos triaxiales usando CO2 Y vacío

AU - Correa, Sergio D.

AU - Ramírez, Andrés F.

AU - Larrahondo, Joan M.

AU - Vacca, Hermes A.

PY - 2016

Y1 - 2016

N2 - Prior to shearing, CU and CD triaxial compression test samples require saturation of the specimens. Usually, saturation is a long and demanding process, especially when dealing with fine-grained soil samples. The most widely used saturation method to date is backpressuring, which was proposed in the mid-twentieth century. Since then, other techniques have been proposed for coarse-grained soils using carbon dioxide (CO2) and negative pore pressures delivered via vacuum. However, literature on the application of these techniques for fine-grained soils is scarce. This article describes the use of a composite technique for applying negative pore pressures followed by CO2 injection in reconstituted samples of fine-grained soil. Results show a significant reduction in the time required for saturation, while meeting the traditional criterion of Skempton's B-parameter equal to or higher than 0.95.

AB - Prior to shearing, CU and CD triaxial compression test samples require saturation of the specimens. Usually, saturation is a long and demanding process, especially when dealing with fine-grained soil samples. The most widely used saturation method to date is backpressuring, which was proposed in the mid-twentieth century. Since then, other techniques have been proposed for coarse-grained soils using carbon dioxide (CO2) and negative pore pressures delivered via vacuum. However, literature on the application of these techniques for fine-grained soils is scarce. This article describes the use of a composite technique for applying negative pore pressures followed by CO2 injection in reconstituted samples of fine-grained soil. Results show a significant reduction in the time required for saturation, while meeting the traditional criterion of Skempton's B-parameter equal to or higher than 0.95.

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M3 - Paper

AN - SCOPUS:85045769444

T2 - 2nd International Specialized Conference on Soft Rocks, ICSR 2016

Y2 - 6 October 2016 through 7 October 2016