Soft Sensitive Clays Research Articles

Novel technique of electrical strengthening of soft sensitive clays by dielectrophoresis : Lo, K Y; Ho, K S; Inculet, I I Can Geotech JV29, N4, Aug 1992, P599–608

Novel technique of electrical strengthening of soft sensitive clays by dielectrophoresis : Lo, K Y; Ho, K S; Inculet, I I Can Geotech JV29, N4, Aug 1992, P599–608

Effects of electroosmotic field treatments on the soil properties of a soft sensitive clay : Lo, K Y; Ho, K S Can Geotech JV28, N6, Dec 1991. P763–770

Effects of electroosmotic field treatments on the soil properties of a soft sensitive clay : Lo, K Y; Ho, K S Can Geotech JV28, N6, Dec 1991. P763–770

A novel technique of electrical strengthening of soft sensitive clays by dielectrophoresis

A novel technique of electrical strengthening of soil by dielectrophoresis was developed. The process employs an alternating current at high voltage, generating a converging electric field towards the electrode by which a net resultant movement of water in the clay mass is produced towards the direction of stronger electric field intensity. Laboratory tests were developed to investigate the mechanism of this process and to explore the possibility of its application in electrical strengthening of soft sensitive clays. The preliminary results of this study showed that the process is effective, and the shear strength of the treated clay (Wallaceburg clay) increased drastically by several times with a reduction of moisture content of approximately 25% at an applied electric potential of 20 kV for 28 days. When compared with electro-osmosis, similar results are obtained in dielectrophoresis, such as the increase in preconsolidation pressure, decrease in sensitivity, and improvement of stress–strain behaviour. It is also shown that the improvement of soil properties can be greatly enhanced by increasing the applied voltage and electrode depth. Key words : dielectrophoresis, alternating current, converging electric field, high-voltage electrode, dielectric constant, electro-osmosis, soft sensitive clay, shear strength, consolidation.

The effects of electroosmotic field treatment on the soil properties of a soft sensitive clay

A field test was undertaken to assess the effectiveness of the electroosmotic strengthening of the soft sensitive (Champlain Sea) clay in the Gloucester Test Fill site by using specially designed copper electrodes to improve treatment efficiency. Tube samples, 127 mm in diameter, were recovered before and after field treatment for detailed laboratory tests. Isotropically consolidated undrained triaxial tests with pore-pressure measurements were performed. It was found that the failure envelope after treatment was significantly higher than the initial envelope, indicating that the strength in terms of effective stresses increased. Consolidation tests showed that, as a result of treatment, the preconsolidation pressure increased from 53 to 98 kPa. The soft clay is virtually "overconsolidated" by the process. Additional effects of electroosmosis on the properties of the soft clay are the increase in plasticity, carbonate content, and salinity and the decrease in sensitivity. There is, therefore, a general improvement in soil properties after treatment, both in terms of total and effective stresses. Key words: electroosmosis, soft sensitive clay, failure envelope, sensitivity, preconsolidation pressure, pH value.

Electroosmotic strengthening of soft sensitive clays : Can Geotech J V28, N1, Feb 1991, P62–73

A comprehensive experimental investigation on the electroosmotic strengthening of soft sensitive clay was performed to assess the effectiveness of the treatment and to study the mechanism of the pr...

Field test of electroosmotic strengthening of soft sensitive clay : Can Geotech J V28, N1, Feb 1991, P74–83

A field test was undertaken to assess the effectiveness of electroosmosis in strengthening the soft sensitive (Leda) clay at the Gloucester test fill site. Specially designed copper electrodes were...

Field test of electroosmotic strengthening of soft sensitive clay

A field test was undertaken to assess the effectiveness of electroosmosis in strengthening the soft sensitive (Leda) clay at the Gloucester test fill site. Specially designed copper electrodes were installed to prevent gas accumulation around the electrode and to allow pore water in the soil to flow out from the cathode without pumping. The variation of settlement, shear strength, and voltage distribution during treatment was measured, and tube samples were recovered before and after treatment for laboratory tests. The results of field vane tests at different locations within the treated area and at different times indicate that the undrained shear strength increased uniformly by approximately 50% for a period of 32 days throughout the depth of the electrodes. Concurrently, an average surface settlement of 50 mm was achieved. The total power consumption was less than 1% of the total project cost, indicating that the design of the treatment system was efficient. It is evident, therefore, that substantial increase in strength as well as general improvement in soil properties may be achieved by this improved version of electroosmosis. The elimination of pumping improved the economy of the process considerably. It is hoped that the process may receive wider application as a result of these improvements. Key words: electroosmosis, electrode, polarity reversal, Gloucester test fill, soft sensitive clay, uniformity of treatment, power consumption.

Electroosmotic strengthening of soft sensitive clays

A comprehensive experimental investigation on the electroosmotic strengthening of soft sensitive clay was performed to assess the effectiveness of the treatment and to study the mechanism of the process. A specially designed electroosmotic cell was developed to prevent gas accumulation near the electrodes, to allow better electrode-soil contact, and to improve the treatment efficiency. This apparatus also enables the monitoring of the generated negative pore-water pressure along the sample length, settlement, voltage distribution, and current variation during treatment. The investigation covered two different types of soil trimmed at different orientations: the vertically and horizontally trimmed overconsolidated Wallaceburg clay and the vertically trimmed slightly overconsolidated soft sensitive Gloucester (Leda) clay. Results of this study showed that the voltage distribution and induced negative pore pressure at equilibrium along the sample are linear with steady current flow across the sample, indicating that the electrode design in the electroosmosis test apparatus is efficient. The electroosmotic consolidation curve is similar to that of the conventional consolidation curve, and the preconsolidation pressure was increased by 51–88% with an applied voltage up to 6 V. The undrained shear strength increased to a maximum of 172%, and the moisture content decreased by 30%. The technique of electrode reversal is employed, and a relatively uniform strength increase between the electrodes is observed. Key words: electroosmosis, electroosmotic cell, soft sensitive clay, negative pore-water pressure, preconsolidation pressure, stress–strain behaviour.

Comparison of field vane and laboratory undrained shear strength in soft sensitive clays : Lefebvre, G; Ladd, C C; Pare, J J Proc International Symposium on Laboratory and Field Vane Shear Strength Testing, Tampa, 22–23 January 1987P233–246. Publ Philadelphia: ASTM, 1988 (ASTM Special Technical Publication 1014)

Comparison of field vane and laboratory undrained shear strength in soft sensitive clays : Lefebvre, G; Ladd, C C; Pare, J J Proc International Symposium on Laboratory and Field Vane Shear Strength Testing, Tampa, 22–23 January 1987P233–246. Publ Philadelphia: ASTM, 1988 (ASTM Special Technical Publication 1014)

Factors affecting the measurements and interpretation of the vane strength in soft sensitive clays

Factors affecting the measurements and interpretation of the vane strength in soft sensitive clays

Behaviour of a test excavation in soft Champlain Sea clay

The field observations made during a sloped excavation in a soft sensitive clay are presented. The test site is located in Saint-Hilaire, in a typical Champlain Sea clay deposit, of 30 m depth. The trench was 8 m deep and 60 × 60 m square and its slopes were at 45, 34, 27, and 18° to the horizontal. The induced pore pressures and total lateral stresses have been recorded with vibrating-wire instruments since the beginning of the excavation. The steepest, 45° slope completely failed 1 day after excavating and the 34° slope, 2 weeks after. The piezometer readings have shown that the groundwater regime was modified proportionally to the changes in total stresses; these modifications took place within a time period of 5 months, after which the heads became more or less constant. The total stress cells indicated significant rotation of the principal axes at the toe of the slopes. Stability analyses using the lowest vane strength profile gave minimum factors of safety of 1.15 for the 45° slope and 1.23 for the 34° slope, thereby underestimating the risks of failure. Back analyses using regional effective shear strength parameters were made and the parameters mobilized at failure were found to be [Formula: see text] and [Formula: see text]. Key words: case record, excavation, soft clay, slope stability, back analysis.

Settlement record of tower silos built on Champlain clays

Research has been carried out at Université de Sherbrooke since 1975 on the behaviour of agricultural tower silos built in the St. Lawrence Lowlands in the Province of Quebec. The structures considered are built over soft sensitive Champlain Sea clays. The current foundation designs usually rely heavily on qualitative estimations of the performance of previously built silos. Settlement surveys are now available for a 10 year period for 19 silos out of an original group of 28. Sampling and laboratory testing have been carried out at 11 of these locations, while Nilcon vane shear testing has been performed at each site. Settlement and stability calculations have been made. It is thus possible to compare the observed and predicted behaviours of each silo over a substantial period of time. Foundation design recommendations are proposed as a result of these observations. It is shown that the factor of safety against failure can be used as an indicator of settlement behaviour. Key words: case history, settlement, sensitive clays, tower silos.

Undrained shear strength from piezocone tests

With the advent of piezocones — penetrometers measuring both the mechanical resistance and induced pore pressures near the tip during penetration into the soil — a new interpretation of penetrometer test data is possible. This paper presents a review of available interpretation methods for obtaining the undrained shear strength of soft soils, and introduces a new interpretation taking into account measured pore pressures. The undrained shear strength is considered to be solely related to the ultimate cavity expansion pressure, which is one of the components of the tip resistance. The other component is calculated assuming that effective friction is developed at the cone–soil interface.Parametric studies on the parameters required for strength determination based on the proposed method are also presented. Special self-boring pressuremeter tests to obtain relevant values of soil rigidity index, which is a key parameter for cavity expansion modelling, are described. Tests were conducted at three sites having the characteristics of soft sensitive clay, stiff sensitive clay, and clayey silt. The operational undrained strength mobilized during the cone insertion derived from the proposed model is equal to or lower than the CK0U triaxial strength, which depends on soil brittleness. The proposed approach yields results consistent with known soil behaviour at all three sites. Key words: piezocone penetrometer, pressuremeter, excess pore-water pressure, undrained shear strength, rigidity index, in situ tests, laboratory test.

Bearing capacity of friction piles in marine clay

A full-scale investigation with two instrumented test piles was carried out at the St Alban test site, to study the increase in bearing capacity with time of short friction piles jacked into an over-consolidated soft sensitive marine clay. It is shown that the increase in shaft bearing capacity with time is significant and reaches about 12 times the initial shaft supporting capacity. The maximum skin friction is developed when the excess pore pressures generated during driving are fully dissipated after about 600 h. The results of load tests strongly suggest that effective stress parameters govern the behaviour of friction piles during the reconsolidation phase. The shaft bearing capacity is underestimated by approximately 45% with an effective stress approach in which the Ko, value is inferred from 1 – sin φ. However, if the measured values of Ko are taken, the calculated load carried by shaft friction is 70–90% of the actual shaft capacity. It is shown that the ultimate toe bearing capacity is strain rate dependent. For strain rates less than 5 × 10-4/s, which corresponds to pile penetration rates less than O·1 cm/s, the behaviour of tbe clay surrounding the toe is partially drained. Thus, the prediction of toe resistance for load testing conditions, i.e. a penetration rate of about 0·0001 cm/s, is complex and cannot be carried out with the undrained characteristics of the clay. Un essai en vraie grandeur a été effectué sur deux pieux instrumentés au centre d'expéiences de St Alban afin d'étudier I'accroissement dans le temps de la portance des pieux flottants courts vérinés dans une argile marine tendre surconsolidée sensible au remaniement. L'article démontre que la portance s'accroît de façon significative dans le temps et atteint environ 12 fois la valeur originale. Le frottement maximal est atteint lorsque les surpressions interstitielles créées au cours du battage des pieux se dissipent complètement après environ 600 h. Les résultats des essais de chargement montrent que les paramètres de contrainte effective régissent le comportement des pieux flottants pendant la phase de reconsolidation. La portance est sous-estimée d'environ 45% avec une méthode employant la contrainte effective dans laquelle la valeur Ko, est prise égale à 1 – sin ø. Cependant, si on prend les valeurs mesurées de Ko la charge calculée portée par le frottement représente entre 70% et 90% de la capacité réelle. On démontre que la force portance limite de pointe dépend dutaux de déformation. Pour des taux de déformation inférieurs à 5 × 10-4'/s, ce qui correspond à des vitesses de pénétration inférieures à 0, l cm/s, le comportement de l'argile entourant la base du pieu est partiellement drainé Il est ainsi très dificile de prédire la réistance de pointe pour des conditions d'essais de chargement, c'est-à-dire un taux de pénétration d'environ 0,001 cm/s, et aucune prédiction ne peut se faire sur la base des caractéristiques non-drainées de l'argile.

Can we predict landslide hazards in soft sensitive clays? Summary of Norwegian Practice and Experiences : Karlsrud, K; Aas, G; Gregersen, O Norw Geotech Inst PublN158, 1985, 24P

Can we predict landslide hazards in soft sensitive clays? Summary of Norwegian Practice and Experiences : Karlsrud, K; Aas, G; Gregersen, O Norw Geotech Inst PublN158, 1985, 24P

Excavation d'argile sensible au site de l'aménagement hydroélectrique LG-2

This paper is a review of the design adopted to establish the slopes for deep clay excavations (3 000 000 m3) made for founding rockfill embankment dams on bedrock and for clearing the tailrace tunnel portals at the LG-2 hydroelectric site. The design and excavation of soft sensitive clay deposits down to 22 m had been undertaken at a period of time when very few precedents were existing (1974). During the excavation works, only a few minor slides occurred, indicating that the design approach, using undrained shear strength analysis, was appropriate for the site conditions. Methods of excavation and hauling of material to disposal areas are also described. Key words: slope, sensitive clay, undrained strength analysis, safety factor, excavation method, behaviour.

Improvement of sensitive silty clay by electroosmosis

A laboratory test program was undertaken in order to assess the probable effectiveness of electroosmotic treatment in the field in reducing the water content and sensitivity of a deposit of soft sensitive silty clay. The results of treatment on tube samples indicate that substantial reductions in water content and liquidity index would be expected, particularly close to the anode. Static and dynamic triaxial tests on both treated and untreated specimens indicated major improvement in both static strength and the resistance to cyclic loading of the soil. Both of these are necessary if construction of a major embankment on this material is to proceed. Key words: electroosmosis, soil improvement, sensitive soils, cyclic testing.

F. E. analysis of field consolidation curves obtained with the modified borehole shear device (BHSD)

AbstractA modified version of the bore hole sheat device (BHSD) was used to obtain field consolidation curves in a soft sensitive clay. The Porewater pressure dissipation was monitored at the centre of one of the shear plates.This paper describes briefly the in situ device employed and demonstrates the basic features of the linearelastic F. E. program ‘SOL’. A detailed study is made to simulate the field behaviour with the finite element approach. Comparisons are made between the field and analytical consolidation behaviour. Difficulties in predicting the value of the coefficient of consolidation of a sensitive clay using the BHSD consolidation curves are discussed.

The Modified Borehole Shear Device

Abstract The standard borehole shear device (BHSD) as developed by Handy and Fox (1976) was modified to include pore-water pressure and load transducers, a motorized pulling mechanism, and different types of shear plates. With the modified device it is possible to monitor the drainage conditions during both the consolidation and shear phases of the test. Undrained and drained shear strength parameters have been measured within boreholes augered into a soft sensitive clay deposit.

Behaviour of friction piles in soft sensitive clays : Blanchet, R; Tavenas, F; Garneau, R Can Geotech J, V17, N2, May 1980, P203–224

During the construction of heavy structures, such as bridges and overpasses, on soft clays on the north shore of the St. Lawrence Valley, a detailed load test program on friction piles was performed to establish the characteristics of the most suitable type of pile and to study its long-term behaviour. Three types of piles, timber, steel pipe with closed end, and precast concrete Herkules H-420 piles, were tested. Four timber piles driven in a group and submitted to a 712 kN load served to study the long-term settlement of a small group of piles. Three deep settlement gauges were installed in the centre of this group for measuring settlements in clay at various depths. This test program was completed by the instrumentation of two bridge piers in order to verify the behaviour of larger groups of piles. The paper presents the results of the test piles, the long-term behaviour (4 years) of the bridge pier foundations resting on friction piles in soft clay, and the interpretation of the results. This study shows that the pore pressures induced by pile driving are related to the preconsolidation of the clay and that they are much larger for tapered piles. It is demonstrated that the effective stress analysis method proposed in 1976 by Meyerhof determines adequately the ultimate pile bearing capacity, but that the effect of the timber pile taper doubles the skin friction. The settlement analysis of pile groups shows that settlements are due to the reconsolidation of the clay and shear creep deformations in the clay close to the pile wall.