Revisiting the Bjerrum's correction factor: Use of the liquidity index for assessing the effect of soil plasticity on undrained shear strength

The study aims to investigate the effects of three different construction and demolition materials (CDMs), including crushed waste asphalt (CWA), crushed waste bricks (CWB), and crushed waste concrete (CWC), on some geotechnical properties of low plastic clayey soil, particularly, the undrained shear strength (Su) and the hydraulic conductivity (k). A set of experimental tests were performed on clayey soil and on clayey soil-CDM mixtures at mixing ratios of 5%, 10%, 15%, and 20% by dry weight. The results show that the soil plasticity decreases as the CDMs increase. Quantitatively, it is found a maximum of 12%, 6%, and 6% decrease in the liquid limits (LL) and a maximum of 9%, 4%, and 6% decrease in the plasticity limit (PI) of the mixtures with 20% of CWA, CWB, and CWC, respectively. The results of the Su estimated empirically from the fall cone tests show that the Su decreases as the CDMs increase. The Su reduces by approximately 10% and 2% of the mixtures with 20% CWA and CWB, respectively. But the Su is not affected by the CWC additive for water content lower than approximately 35%. The k value increases as the CDMs increase. The results show that the reported k value increases by 75%, 79%, and 247% of the mixtures with 20% of CWA, CWB, and CWC, respectively. Additionally, the k values obtained from the consolidation test confirm the findings of the effect of the CDMs on the coefficient of hydraulic conductivity.

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Relationship between measured plastic limit and plastic limit estimated from undrained shear strength, water content ratio and liquidity index

Clay Minerals ◽

10.1180/claymin.2017.052.4.08 ◽

2017 ◽

Vol 52 (4) ◽

pp. 509-519 ◽

Cited By ~ 9

Author(s):

Giovanni Spagnoli ◽

Martin Feinendegen

Keyword(s):

Shear Strength ◽

Water Content ◽

Human Error ◽

Undrained Shear Strength ◽

Plastic Limit ◽

Limit Values ◽

Liquidity Index ◽

Content Ratio ◽

Exponential Trend ◽

Undrained Shear

AbstractThe detection of the plastic limit of clays is subject to human error. Several attempts have been made to correlate across studies the geotechnical properties of fine-grained soils (water content, liquidity index, shear strength, etc.). Based on the premise that the liquidity index and water content ratio can be correlated directly, an alternative method to obtain indirectly the plastic limit is suggested here. The present study investigated 40 natural clayey samples of various mineralogies and origins and other publicly available data, where Atterberg limits and undrained shear strength values obtained with the vane shear tests were given. The liquidity index and water-content ratio correlate very well for defined undrained shear strength values of the clays. Solving the liquidity index equation for the plastic limit, estimated plastic limit values obtained by the liquidity index/water-content ratio relationship were compared with laboratory plastic-limit values. Preliminary results based on 62 values show an exponential trend with a multiple regression coefficient of 0.79. The data need to be confirmed on a larger database, however.

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Effects of frost on the mechanical behaviour of Champlain Sea clays

Canadian Geotechnical Journal ◽

10.1139/t91-083 ◽

1991 ◽

Vol 28 (5) ◽

pp. 690-697 ◽

Cited By ~ 42

Author(s):

S. Leroueil ◽

J. Tardif ◽

M. Roy ◽

P. La Rochelle ◽

J.-M. Konrad

Keyword(s):

Shear Strength ◽

Key Words ◽

Granular Materials ◽

Volume Change ◽

Mechanical Behaviour ◽

Undrained Shear Strength ◽

Freeze Thaw ◽

Liquidity Index ◽

Thaw Consolidation ◽

Undrained Shear

This paper presents the mechanical behaviour of Champlain Sea clays when subjected to one cycle of freeze-thaw. It appears that most of the characteristics, namely, the undrained shear strength, the thaw consolidation volume change, and the strength after consolidation, are related to the initial liquidity index and can thus be easily predicted. Results also show that frozen–thawed Champlain Sea clays present a dilatant behaviour very similar to that of granular materials. Key words: sensitive clays, frost, laboratory, strength, compressibility.

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A statistical evaluation of some engineering properties of eastern Canadian clays

Canadian Geotechnical Journal ◽

10.1139/t90-048 ◽

1990 ◽

Vol 27 (3) ◽

pp. 373-386 ◽

Cited By ~ 1

Author(s):

Étienne J. Windisch ◽

Raymond N. Yong

Keyword(s):

Shear Strength ◽

Statistical Evaluation ◽

Undrained Shear Strength ◽

Plasticity Index ◽

Engineering Properties ◽

Plastic Limit ◽

Liquidity Index ◽

Marine Clays ◽

Undrained Shear

Statistics for data collected on eastern Canadian clays (Champlain, Goldthwait, Tyrrell, and Laflamme marine clays and Barlow–Ojibway lacustrine clays) are computed and analyzed. These clays are divided into three groups: eastern Canadian marine clays, Champlain clays (as an important part of the first group), and Barlow–Ojibway lacustrine clays. The analysis reveals significant differences between eastern Canadian clays and Scandinavian clays. Some relationships proposed in the literature and based on plasticity index, liquidity index, and plastic limit are found to be inapplicable to eastern Canadian clays. On the basis of a proposed method for estimating the undrained shear strength of normally consolidated eastern Canadian marine clays, the overconsolidation ratio is found to be equal to the ratio of the in situ undrained shear strength to the estimated normally consolidated undrained shear strength. Key words: undrained shear strength, plasticity index, liquidity index, plastic limit, statistical evaluation, over-consolidation ratio, lacustrian clays.

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Some relations among fall cone penetration, liquidity index and undrained shear strength of clays considering the sensitivity ratio

Bulletin of Engineering Geology and the Environment ◽

10.1007/s10064-019-01478-2 ◽

2019 ◽

Vol 78 (7) ◽

pp. 5029-5038 ◽

Cited By ~ 7

Author(s):

Satoru Shimobe ◽

Giovanni Spagnoli

Keyword(s):

Shear Strength ◽

Undrained Shear Strength ◽

Cone Penetration ◽

Liquidity Index ◽

Sensitivity Ratio ◽

Undrained Shear

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The undrained strength – liquidity index relationship

Canadian Geotechnical Journal ◽

10.1139/cgj-2013-0169 ◽

2014 ◽

Vol 51 (9) ◽

pp. 1073-1086 ◽

Cited By ~ 39

Author(s):

P.J. Vardanega ◽

S.K. Haigh

Keyword(s):

Shear Strength ◽

Undrained Shear Strength ◽

Liquid Limit ◽

Mathematical Function ◽

Plastic Limit ◽

Mathematical Relationship ◽

Liquidity Index ◽

Undrained Strength ◽

Statistical Improvement ◽

Undrained Shear

A database of 641 fall cone tests on 101 soil samples from 12 countries has been analysed to determine the best mathematical relationship linking undrained shear strength with liquidity index. From the database, it is shown that the use of a linear relationship linking liquidity index and the logarithm of undrained shear strength that uses the commonly assumed 100-fold factor increase in strength from the liquid to plastic limit overpredicts the measured data of soil strength. The use of a factor of about 35 for the ratio between the strength at liquid limit and that extrapolated to the plastic limit is shown to be more realistic. Logarithmic liquidity index is examined and found to also correlate strongly with the logarithm of undrained shear strength; however, it is shown that no great statistical improvement is present compared with the semi-logarithmic formulation. When considering data of individual soils a power law fitting is statistically shown to be the preferred mathematical function.

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