Improvements to a Stress Path Triaxial Cell

Volume 18, Issue 1 (March 1995)

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ISSN: 1945-7545
CODEN: GTJODJ
Page Count: 5

Improvements to a Stress-Path Triaxial Cell

Aversa, S
Research associate and professor, Università di Napoli Federico II—Istituto di Geotecnica, Naples,

Vinale, F
Research associate and professor, Università di Napoli Federico II—Istituto di Geotecnica, Naples,

Abstract

Stress-path triaxial cells are presently used all over the world. Accurate use of this type of apparatus allows an investigation into the mechanical behavior of soils with regard to a wide range of stress and strain. A correct evaluation of small-strain stiffness requires an accurate definition of the compliance curve of the apparatus and the possibility of performing tests in stress-controlled conditions. However, in the standard stress-path cell, compliance curves are often nonlinear and nonrepeatable. Moreover, in most standard stress-path apparatus, the pressure supply is limited to 1000 kPa, which makes it impossible to carry out stress-controlled tests at high confining pressures. The observation of these limitations prompted adjustments in the design of the cell, described in the present paper. With the revised design, it is possible to apply a deviatoric stress up to 1500 kPa under stress-controlled conditions with a cell pressure of 1000 kPa using a 1000-kPa pressure supply. The stiffness of the cell was also significantly increased, up to ten times the stiffness of the original design.

Keywords:
testing device, triaxial test, stress path, compliance, small strain measurement

Paper ID: GTJ10128J
DOI: 10.1520/GTJ10128J
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Author Title Improvements to a Stress-Path Triaxial Cell Symposium , 0000-00-00 Committee D18

		SEDL / Journals / Geotechnical Testing Journal (GTJ) / Citation Page Volume 18, Issue 1 (March 1995) Click here to download this paper now for $25 PDF (248K) View License Agreement ISSN: 1945-7545 CODEN: GTJODJ Page Count: 5 Improvements to a Stress-Path Triaxial Cell Aversa, S Research associate and professor, Università di Napoli Federico II—Istituto di Geotecnica, Naples, Vinale, F Research associate and professor, Università di Napoli Federico II—Istituto di Geotecnica, Naples, Abstract Stress-path triaxial cells are presently used all over the world. Accurate use of this type of apparatus allows an investigation into the mechanical behavior of soils with regard to a wide range of stress and strain. A correct evaluation of small-strain stiffness requires an accurate definition of the compliance curve of the apparatus and the possibility of performing tests in stress-controlled conditions. However, in the standard stress-path cell, compliance curves are often nonlinear and nonrepeatable. Moreover, in most standard stress-path apparatus, the pressure supply is limited to 1000 kPa, which makes it impossible to carry out stress-controlled tests at high confining pressures. The observation of these limitations prompted adjustments in the design of the cell, described in the present paper. With the revised design, it is possible to apply a deviatoric stress up to 1500 kPa under stress-controlled conditions with a cell pressure of 1000 kPa using a 1000-kPa pressure supply. The stiffness of the cell was also significantly increased, up to ten times the stiffness of the original design. Keywords: testing device, triaxial test, stress path, compliance, small strain measurement Paper ID: GTJ10128J DOI: 10.1520/GTJ10128J ASTM International is a member of CrossRef. Author Title Improvements to a Stress-Path Triaxial Cell Symposium , 0000-00-00 Committee D18