https://orcid.org/0000-0002-5719-8420
ABSTRACT
Monotonic and cyclic triaxial testing provides key information for a wide range of sensitive geotechnical problems. This paper assesses the potential impact on stress-strain measurements of several error sources and discusses how test quality may be improved. External volume gauges are shown to be subject to significant errors that depend on the pressure level. While high-resolution local radial strain measurement presents considerable challenges, especially in long-duration cyclic tests, problems with “floating” radial-belt and alternative “L-configuration” systems were overcome by steps that allow strains as low as 10−4 % to be resolved reliably. Sample end conditions are shown more important than is commonly appreciated. Employing smooth, enlarged, and lubricated end platens can avoid the recording of misleadingly high shear resistances, which are most significant with relatively loose specimens tested under low effective stresses. Stiffnesses and dilation trends were also recorded more reliably in tests employing smooth, enlarged, and lubricated end platens. The arrangements overcome significant strain errors even in tests employing local instruments and specimens with initial height-to-diameter ratios of 2.
Issue Section:
Technical Manuscript
References
1.
Ackerley
, S. K.
,
J. R.
Standing
, and
R.
Hosseini Kamal
. 2016
. “A System for Measuring Local Radial Strains in Triaxial Apparatus
.”
Geotechnique
66
, no. 6
(June): 515
–522
.
2.
Al-Haj
, K. M. A.
and
W. W.
Sim
. 2016
. “Effect of Time on the Evolution of Soil Behaviour: New Advanced Triaxial Creep Cell Experiments
.” In
Proceeding of the Third International Conference Geotec Hanoi - Geotechnics for Sustainable Infrastructure Development
, 903
–908
. Hanoi, Vietnam
: Construction Publishing House
.3.
Andersen
, K. H.
,
A. A.
Puech
, and
R. J.
Jardine
. 2013
. “Cyclic Resistant Geotechnical Design and Parameter Selection for Offshore Engineering and Other Applications
.” In
Proceedings of TC 209 Workshop: 18th ICSMGE - Paris, 4 September 2013
, 9
–44
. Paris
: Presses des Ponts
.4.
Bishop
, A. W.
and
G. E.
Green
. 1965
. “The Influence of End Restraint on the Compression Strength of a Cohesionless Soil
.”
Geotechnique
15
, no. 3
(September): 243
–266
.
5.
Bishop
, A. W.
and
L. D.
Wesley
. 1975
. “A Hydraulic Triaxial Apparatus for Controlled Stress Path Testing
.”
Geotechnique
25
, no. 4
(December): 657
–670
.
6.
British Standards Institution
. 1990
.
Methods of Test for Soils for Civil Engineering Purposes: Part 4. Compaction-Related Tests
. London
: British Standards Institution.
7.
Byrne
, B.
,
R.
McAdam
,
H.
Burd
,
G.
Houlsby
,
C.
Martin
,
W.
Beuckelaers
,
L.
Zdravkovic
, et al. 2017
. “PISA: New Design Methods for Offshore Wind Turbine Monopiles
.” In
Offshore Site Investigation and Geotechnics Smarter Solutions for Offshore Developments
, 142
–161
. London
: Society for Underwater Technology
.8.
Chen
, W.-B.
,
W.-Q.
Feng
,
J.-H.
Yin
, and
L.
Borana
. 2020
. “LVDTs-Based Radial Strain Measurement System for Static and Cyclic Behavior of Geomaterials
.”
Measurement
155
(April
): 107526
.
9.
Chen
, W.-B.
,
W.-Q.
Feng
,
J.-H.
Yin
, and
J.-Q.
Qin
. 2021
. “New Fiber Bragg Grating (FBG)-Based Device for Measuring Small and Large Radial Strains in Triaxial Apparatus
.”
Canadian Geotechnical Journal
58
, no. 7
(July): 1059
–1063
.
10.
Clayton
, C. R. I.
,
S. A.
Khatrush
,
A. V. D.
Bica
, and
A.
Siddique
. 1989
. “The Use of Hall Effect Semiconductors in Geotechnical Instrumentation
.”
Geotechnical Testing Journal
12
, no. 1
(March): 69
–76
.
11.
Cuccovillo
, T.
and
M. R.
Coop
. 1997
. “The Measurement of Local Axial Strains in Triaxial Tests Using LVDTs
.”
Geotechnique
47
, no. 1
(February): 167
–171
.
12.
Cui
, W.
,
D. M.
Potts
,
A. M. G.
Pedro
, and
L.
Zdravković
. 2021
. “Numerical Assessment of the Effects of End-Restraints and a Pre-existing Fissure on the Interpretation of Triaxial Tests on Stiff Clays
.”
Geotechnique
71
, no. 9
(September): 765
–780
.
13.
Escribano
, D. E.
,
D. F. T.
Nash
, and
A.
Diambra
. 2019
. “Local and Global Volumetric Strain Comparison in Sand Specimens Subjected to Drained Cyclic and Monotonic Triaxial Compression Loading
.”
Geotechnical Testing Journal
42
, no. 4
(July): 1006
–1030
.
14.
Gasparre
, A.
,
D. W.
Hight
,
M. R.
Coop
, and
R. J.
Jardine
. 2014
. “The Laboratory Measurement and Interpretation of the Small-Strain Stiffness of Stiff Clays
.”
Geotechnique
64
, no. 12
(December): 942
–953
.
15.
Guo
, L.
,
Y. Q.
Cai
,
R. J.
Jardine
,
Z. X.
Yang
, and
J.
Wang
. 2018
. “Undrained Behaviour of Intact Soft Clay under Cyclic Paths That Match Vehicle Loading Conditions
.”
Canadian Geotechnical Journal
55
, no. 1
(January): 90
–106
.
16.
Hardin
, B. O.
and
F.
Richart
. 1963
. “Elastic Wave Velocities in Granular Soils
.”
Journal of Soil Mechanics and Foundations Division
89
, no. 1
(February): 33
–65
.
17.
Jardine
, R. J.
2013
. “Advanced Laboratory Testing in Research and Practice: Second Bishop Lecture
.” In
Proceedings of the 18th ICSMGE
, 35
–55
. Paris
: Presses des Ponts
.18.
Jardine
, R. J.
2020
. “Geotechnics, Energy and Climate Change: The 56th Rankine Lecture
.”
Geotechnique
70
, no. 1
(January): 3
–59
.
19.
Jardine
, R. J.
,
J. R.
Standing
, and
N.
Kovacevic
. 2005
. “Lessons Learned from Full Scale Observations and the Practical Application of Advanced Testing and Modelling
.” In
Deformation Characteristics of Geomaterials: Recent Investigations and Prospects
, 201
–245
. London
: CRC Press
.20.
Jardine
, R. J.
,
M. J.
Symes
, and
J. B.
Burland
. 1984
. “The Measurement of Soil Stiffness in the Triaxial Apparatus
.”
Geotechnique
34
, no. 3
(September): 323
–340
.
21.
Kohata
, Y.
,
F.
Tatsuokaj
,
L.
Wang
,
G. J.
Jiang
,
E.
Hoque
, and
T.
Kodaka
. 1997
. “Modelling the Non-linear Deformation Properties of Stiff Geomaterials
.”
Geotechnique
47
, no. 3
(June): 563
–580
.
22.
Koseki
, J.
2021
. “Several Challenges in Advanced Laboratory Testing of Geomaterials with Emphasis on Unconventional Types of Liquefaction Tests
.”
Geomechanics for Energy and the Environment
27
(September): 100157
.
23.
Kuwano
, R.
and
R. J.
Jardine
. 2002
a. “On Measuring Creep Behaviour in Granular Materials through Triaxial Testing
.”
Canadian Geotechnical Journal
39
, no. 5
(October): 1061
–1074
.
24.
Kuwano
, R.
and
R. J.
Jardine
. 2002
b. “On the Applicability of Cross-Anisotropic Elasticity to Granular Materials at Very Small Strains
.”
Geotechnique
52
, no. 10
(December): 727
–749
.
25.
Kuwano
, R.
and
R. J.
Jardine
. 2007
. “A Triaxial Investigation of Kinematic Yielding in Sand
.”
Geotechnique
57
, no. 7
(September): 563
–579
.
26.
Lade
, P. V.
2016
.
Triaxial Testing of Soils
. New York
: John Wiley & Sons
. https://doi.org/10.1002/9781119106616
27.
Liu
, T.
“Advanced Laboratory Testing for Offshore Pile Foundations under Monotonic and Cyclic Loading
.” PhD diss. Department of Civil and Environmental Engineering, Imperial College London
, 2018
.28.
Liu
, T.
,
E. R.
Ushev
, and
R. J.
Jardine
. 2020
. “Anisotropic Stiffness and Shear Strength Characteristics of a Stiff Glacial Till
.”
Journal of Geotechnical and Geoenvironmental Engineering
146
, no. 12
(December): 04020137
.
29.
Muraro
, S.
and
C.
Jommi
. 2018
. “Implication of End Restraint in Triaxial Tests on the Derivation of Stress–Dilatancy Rule for Soils Having High Compressibility
.”
Canadian Geotechnical Journal
56
, no. 6
(August): 840
–851
.
30.
Nishimura
, S.
2014
. “Assessment of Anisotropic Elastic Parameters of Saturated Clay Measured in Triaxial Apparatus: Appraisal of Techniques and Derivation Procedures
.”
Soil and Foundations
54
, no. 3
(June): 364
–376
.
31.
Nishimura
, S.
Forthcoming. “Characterisation of Soil Deformation over Wide Strain Ranges in Triaxial Test with High-Precision Stereophotogrammetry
.”
Géotechnique
. Published ahead of print, April 21, 2022
. https://doi.org/10.1680/jgeot.21.00067
32.
Rowe
, P. W.
and
L.
Barden
. 1964
. “Importance of Free Ends in Triaxial Testing
.”
Journal of the Soil Mechanics and Foundations Division
90
, no. 1
(January): 1
–27
.
33.
Safaqah
, O. A.
and
M. F.
Riemer
. 2007
. “The Elastomer Gage for Local Strain Measurement in Monotonic and Cyclic Soil Testing
.”
Geotechnical Testing Journal
30
, no. 2
(March): 164
–172
.
34.
Scholey
, G. K.
,
J. D.
Frost
,
D. C. F.
Lo Presti
, and
M.
Jamiolkowski
. 1995
. “A Review of Instrumentation for Measuring Small Strains during Triaxial Testing of Soil Specimens
.”
Geotechnical Testing Journal
18
, no. 2
(June): 137
–156
.
35.
Sun
, Q.
,
Y.
Cai
,
J.
Chu
,
Q.
Dong
, and
J.
Wang
. 2017
. “Effect of Variable Confining Pressure on Cyclic Behaviour of Granular Soil under Triaxial Tests
.”
Canadian Geotechnical Journal
54
, no. 6
(June): 768
–777
.
36.
Taborda
, D. M. G.
,
L.
Zdravković
,
D. M.
Potts
,
H. J.
Burd
,
B. W.
Byrne
,
K. G.
Gavin
,
G. T.
Houlsby
, et al. 2020
. “Finite-Element Modelling of Laterally Loaded Piles in a Dense Marine Sand at Dunkirk
.”
Géotechnique
70
, no. 11
(November): 1014
–1029
.
37.
Tatsuoka
, F.
,
R. J.
Jardine
,
D.
Lo Presti
,
H.
Di Benedetto
, and
T.
Kodaka
. 1999
. “Theme Lecture: Characterising the Pre-failure Deformation Properties of Geomaterials
.” In
Proceedings of the 14th International Conference on Soil Mechanics and Foundation Engineering, Hamburg
, 2129
–2164
. London
: International Society for Soil Mechanics and Geotechnical Engineering
.38.
Tatsuoka
, F.
,
F.
Molenkamp
,
T.
Torii
, and
T.
Hino
. 1984
. “Behaviour of Lubrication Layers of Platens in Element Tests
.”
Soil and Foundations
24
, no. 1
(March): 113
–128
.
39.
Uchida
, S.
,
E.
Levenberg
, and
A.
Klar
. 2015
. “On-Specimen Strain Measurement with Fiber Optic Distributed Sensing
.”
Measurement
60
(January): 104
–113
.
40.
Ushev
, E.
“Laboratory Investigation of the Mechanical Properties of Cowden Till under Static and Cyclic Conditions
.” PhD diss., Department of Civil and Environmental Engineering, Imperial College London
, 2018
.41.
Ushev
, E. R.
and
R. J.
Jardine
. 2022
. “The Behaviour of Bolders Bank Glacial Till under Undrained Cyclic Loading
.”
Geotechnique
72
, no. 1
(January): 1
–19
.
42.
Vinck
, K. P. A.
“Laboratory Testing of Dunkirk Sand
.” Master’s thesis, Imperial College London
, 2016
.43.
Wichtmann
, T.
2021
. “Soil Behavior under Low- and High-Cycle Loading — Element Tests vs. Constitutive Models
.”
Geomechanics for Energy and the Environment
27
(September): 100188
.
44.
Witowski
, M.
2018
. “Local Displacement Transducer with Miniature Position Encoder
.”
Geotechnical Testing Journal
41
, no. 6
(June): 1147
–1154
.
45.
Xu
, D.-S.
,
L.
Borana
, and
J.-H.
Yin
. 2014
. “Measurement of Small Strain Behavior of a Local Soil by Fiber Bragg Grating-Based Local Displacement Transducers
.”
Acta Geotechnica
9
, no. 6
(December): 935
–943
.
46.
Yimsiri
, S.
and
K.
Soga
. 2002
. “A Review of Local Strain Measurement Systems for Triaxial Testing of Soils
.”
Journal of the Southeast Asian Geotechnical Society
33
, no. 1
(April): 41
–52
.47.
Zdravković
, L.
,
D. M. G.
Taborda
,
D. M.
Potts
,
D.
Abadias
,
H. J.
Burd
,
B. W.
Byrne
,
K. G.
Gavin
, et al. 2020
. “Finite-Element Modelling of Laterally Loaded Piles in a Stiff Glacial Clay Till at Cowden
.”
Geotechnique
70
, no. 11
(November): 999
–1013
.
Copyright © 2022
by ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959
You do not currently have access to this content.
