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Geotechnical and Geological Engineering
Erschienen in: Geotechnical and Geological Engineering 2/2007

01.04.2007 | Original Paper

Stress induced time dependent behavior of clayey soils

verfasst von: Sudhir Kumar Tewatia, Pratima Rani Bose, Asuri Sridharan, Sunanda Rath

Erschienen in: Geotechnical and Geological Engineering | Ausgabe 2/2007

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Abstract

It is shown that time compression curve obtained from one-dimensional consolidation curve in the laboratory may include six phases. These are initial compression, first primary compression, transition from first primary compression to second primary compression, second primary compression, and transition from second primary compression to creep and lastly creep. This paper attempts to identify the quantitative beginnings and characteristics of these phases. A mathematical characteristic of all the soils that follow primary consolidation as per Terzaghi’s one dimensional consolidation theory is derived. It is known as the constant of primary consolidation. It is used to study the beginning of secondary consolidation and its effects on primary consolidation. Another characteristic of soils for creep and total absence of primary compression is derived. Methods are suggested for the determination of coefficients of Primary and Secondary consolidations and the compression index.
Vorheriger Artikel Prediction of the water balance of two soil cover systems
Nächster Artikel The effect of carbonaceous fines on the cyclic resistance of poorly graded sands

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Literatur
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Naatanen MA, Lojander M, Puumalainen N (1995) Primary and secondary consolidation of finish clays. In: Yoshikuni, Kusakabe (eds)Compression and consolidation of clayey soils. Balkema, Rottrerdam, pp 162–170
Olson RE (1985) State of the art: consolidation testing. In: Yong RN, Townsend FC (eds) Consolidation of soils: testing and evaluation, ASTM STP 892. ASTM International, West Conshohocken, PA, pp 7–70
Olson RE (1998) Settlement of embankments on Soft Clays. J Geotech Geo Environ Eng. ASCE 124(8):659–669CrossRef
Parkin AK (1990) Creep of rockfill, chapter 9. In: Maranha das Neves E (ed) Advances in rockfill structures. NATO Advanced Study Institute, Series E, No. 200, Lisbon, Portugal, pp 221–237
Robinson RG (2003) A study on the beginning of secondary compression of soils, ASTM. J Test Eval 31(5):388–397
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Tewatia SK (1998) Evaluation of true c v and instantaneous c v, and isolation of secondary consolidation, ASTM. Geotech Test J GTJODJ 21(2):102–108CrossRef
Tewatia SK, Bose PR (2006) Discussion on the beginning of secondary consolidation, ASTM. J Test Eval 34(5)
Tewatia SK, Venkatachalam K (1997) Improved √t method to evaluate consolidation test results, ASTM. Geotech Test J 20(1):121–125
Tewatia SK, Venkatachalam K (1998) Closure for the discussion on ‘Improved √t method to evaluate consolidation test results, ASTM. Geotech Test J 21(2):155–156
Tewatia SK, Venkatachalam K, Sridharan A (1998) T-chart to evaluate consolidation test results, ASTM. Geotech Test J 21(3):270–274
Tewatia SK, Bose PR, Sridharan A (2006) The 3D consolidation when time of load increment is not known, ASTM. Geotech Test J, Unpublished
Metadaten
Titel
Stress induced time dependent behavior of clayey soils
verfasst von
Sudhir Kumar Tewatia
Pratima Rani Bose
Asuri Sridharan
Sunanda Rath
Publikationsdatum
01.04.2007
Verlag
Kluwer Academic Publishers
Erschienen in
Geotechnical and Geological Engineering / Ausgabe 2/2007
Print ISSN: 0960-3182
Elektronische ISSN: 1573-1529
DOI
https://doi.org/10.1007/s10706-006-9107-2

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