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The present study has been carried out to investigate the effects of sampling disturbance on
mechanical behaviour of reconstituted normally consolidated and overconsolidated Dhaka clay
(OCR values of 2, 5, and 10). Disturbed Dhaka clay samples were collected from Rupnagar
Housing Project, Mirpur-11, Dhaka. The clays were low to medium plasticity (LL = 47, PI= 26).
Reconstituted normally consolidated samples of Dhaka clay were prepared in the laboratory by
K0-consolidation of slurry in a large cylindrical consolidation cell using a consolidation pressure
of 150 kN/m2 while overconsolidated samples having OCR values of 2, 5 and 10 were prepared
by reducing the maximum pressure of 150 kN/m2 to 75 kNlm2, 30 kN/m2 and 15 kN/m2
respectively. "In situ" samples were prepared (by consolidating 38 mm diameter by 76 mm high
specimens under K0-conditions in the triaxial cell) to its "in situ" stress state. "Tube" samples of
various OCR values were prepared from the large diameter consolidated sample by inserting
samplers of different area ratio, external diameter to thickness ratio (De/t) and outside cutting
edge angle (OCA). The area ratio, D't ratio and OCA of the samplers varied from 16.4% to
73.1%, 27.3 to 8.3 and 5° to 20° respectively. Normally consolidated and overconsolidated
"perfect" samples were prepared from respective "in situ" samples by undrained release of the
total stress in the triaxial cell. Undrained triaxial compression tests were carried out on "in situ",
"tube" and "perfect" samples. "Tube" and "perfect" samples having OCR values of 2 and 10
were also reconsolidated isotropically and anisotropically under K0-condition using Bjerrum
(CKoU-1.0o'vc) and SHANSEP (-1.5' and -2.5o'vc) procedures.
Disturbance due to perfect and tube sampling have significant influence on the mechanical
properties of normally consolidated and overconsolidated Dhaka clay. Disturbance due to
perfect sampling led to reduction in the values of s and Ap while Ei, E50 and €p increased
caused due to total stress relief. Because of perfect sampling undrained strength (sn) reduced up
to 8.2% while, axial strain at peak deviator stress (€p) increased up to 20.9% for samples of OCR
value of 10. Due to perfect sampling pore pressure parameter at peak deviator stress (Ap) reduced
up to 90% while, initial tangent modulus (E1) and secant stiffness at peak half deviator stress
(E50) increased up to 14.0% and 19% respectively for normally consolidated sample. Due to total
stress relief for perfect sampling disturbance, the reduction in su increases with increase in
OCR while, the increase in E, E50 reduce with increase in OCR.
The initial effective stress (ϐ'i) of "tube" samples reduced considerably because of disturbance
caused by penetration of tubes. Compared with "in situ" samples, values of su, Ei, E50 and Ap
of the "tube" samples reduced while εp increased. Changes in measured soil parameters
between the "in situ" and "tube" samples have been found to depend significantly on the
sampler characteristics (area ratio, De/t ratio and OCA) used for retrieving the "tube" samples.
The values of ϐi, Su, and Ei were reduced up to 26.211/o, 43% and 62% respectively for
normally consolidated sample due to increase in area ratio from 16.4% to 73.1% (or reduction
in Delt ratio from 27.3 to 8.3). The respective reductions for normally consolidated sample due
to increase in OCA from 4° to 15° are 21.9%, 38% and 60%. Values of εp for OCR values of
1 and 5, increased up to 57.7% and 52.6% due to increase in area ratio and OCA respectively.
A quantitative increase in the degree of disturbance (Dd) has been obtained due to increase in
area ratio and OCA. The results indicates that compared with normally consolidated
reconstituted Dhaka Clay, tube sampling causes relatively little degree of disturbance in
overconsolidated reconstituted Dhaka Clay. The reduction in initial effective stress due to tube
sampling reduces with increase in OCR. The increase in value of c, due tube sampling reduces
with increasing OCR. For tube sampling disturbance, trend of small decrease in the reduction
of su/ ϐ'vc, Ei / ϐ'vc,, and E50 / ϐ'vc obtain with increasing OCR. However, significant increase
in reduction of A with increasing OCR has been observed.
It appeared that for good quality sampling, a sampler ought to have a well combination of area
ratio and OCA. In order to reduce disturbance due to sampling in soft Dhaka clay, area ratio and
OCA of sampler should be kept practically as low as possible. A connection curve has been
provided from the plot of strength ratio versus overconsolidation ratio for samples of Dhaka
clay. This correction curve can be used to find the perfectly undisturbed strength of the tube
samples retrieved of Dhaka clay for use in analyses and designs.
Isotropic reconsolidation (CIU-1.0c') has the effect of gross overestimation of "in situ"
strength, c,,. and E1 for the "tube" and "perfect" samples. It has been found that compared with
SI-IANSEP procedures reconsolidation using Bjerrum procedure (CKoU-1.0 ϐ') for both "tube"
and "perfect" samples of overconsolidated Dhaka clay, produced the best overall estimate of the
"in situ" properties in terms of undrained strength, stiffness, strain and pore pressure response. |
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