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Geotechnical and Geological Engineering

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01.11.2011 | Original Paper

Investigation on the Characteristics of Pore Water Flow During CRS Consolidation Test

verfasst von: H. Ahmadi, H. Rahimi, A. Soroush

Erschienen in: Geotechnical and Geological Engineering | Ausgabe 6/2011

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Abstract

Several experimental methods have been proposed for consolidation test such as: constant loading rate, constant gradient and constant rate of strain (CRS). Unfortunately, there are no unique criteria for performing the CRS consolidation test. Also, there are considerable differences among the standards proposed for the test. In the present paper, authors have tried to find the reasons for differences among standards, by studying the basic assumptions made on the characteristics of the pore water flow during consolidation process. In the course of study, CRS consolidation tests were carried out under different strain rates on remolded samples. The results of the tests have indicated that the Darcy’s law is not valid throughout the CRS test and therefore, any consolidation equation based on Darcy’s law would not provide accurate results. The results of the current experiments also showed that with regard to the applied strain rates, there are three different flow regimes governing the process named as: pre-linear (non-Darcy flow), linear (Darcy flow) and post-linear (non-Darcy flow). Experimental results also showed that distinction between boundaries of linear and nonlinear flow is possible from the excess pore pressure developed during the tests.

Vorheriger Artikel Uplift Capacity of Horizontal Strip Anchors in Cohesionless Soil

Nächster Artikel Cement-Stabilization of Sabkha Soils from Al-Auzayba, Sultanate of Oman

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Abbasi N, Rahimi H, Javadi AA, Fakher A (2007) Finite difference approach for consolidation with variable compressibility and permeability. Comput Geotech 34:41–52CrossRef

Almeida MSS, Martins IS, Carvalho SRL (1995) Constant rate of strain consolidation of Singapore marine clay. Discussion to paper Lee K et al (ed) Geotechnique, 45(2) 333–336

Armour DW Jr, Drnevich VP (1986) Improved techniques for the constant-rate-of-strain consolidation test. Consolidation of soils: testing and evaluation, ASTM SPT 892. In: Yong RN, Townsend FC (eds) American Society for Testing and Materials, pp 170–183

ASTM (2002) Annual book of ASTM standards. American Society for Testing and Materials, Soil and Rock, pp 500–505

Dobak P (2003) Loading velocity in consolidation analysis. Geol Quart 47(1):13–20

Dubin B, Mulin G (1986) Influence of a critical gradient on the consolidation of clays. Consolidation of soils: testing and evaluation, ASTM SPT 892. In: Yong RN, Townsend FC (eds) American Society for Testing and Materials, pp 354–377

Gromen CT (1981) Strain rate selection in the constant-rate-of-strain consolidation test. Research report UKTRP-81-1. Kentucky Transportation Research Program, University of Kentucky, Lexington

Gromen CT, Hopkins TC, Deen RC, Drenvich VP (1978) Constant rate of strain and controlled gradient consolidation testing. Geotech Test J 1(1):3–15CrossRef

Hamilton JJ, Crawford CB (1959) Improved determination of preconsolidation pressure of a sensitive clay, papers on soils. ASTM Spec. Tech. Publ. No. 254–270

Hansbo S (1960) Consolidation of clay, with special reference to influence of vertical sand drains. A study made in connection with full scale investigations at Ska°–Edeby. Doctoral thesis, Swedish Geotechnical Institute

Hansbo S (2001) Consolidation equation valid for both Darcian and non-Darcian flow. Geotechnique 51(1):51–54CrossRef

Hansbo S (2003) Deviation from Darcy’s Law observed in one-dimensional consolidation. Geotechnique 53(3):601–605

Head KH (1986) Manual of soil laboratory testing. Pentech press, London

Lechowicz Z, Szymański A (1984) Prediction of consolidation of organic soils. Ann Warsaw Agric Univ 20:55–59

Lee K (1981) Consolidation with constant rate of deformation. Geotechnique 35(3):241

Lee K, Choa V, Lee SH, Quek SH (1993) Constant rate of strain consolidation of Singapore marine clay. Geotechnique 43(3):471–488CrossRef

Lekha KR, Krishnaswamy NR, Basak P (2003) Consolidation of clays for variable permeability and compressibility. J Geotech Geo-Environ Eng 129(11):1001–1009CrossRef

Malionowska E, Sas M, Szymanski A (2007) Nonlinear water flow characteristics describing organic soil consolidation. Elect J Pol Agric Univ 10(4):#41

Mitchell KJ, Soga K (2005) Fundamental of soil behavior, 3rd edn. Wiley, Hoboken, New Jersey, USA

Sallfors G (1975) Pre-consolidation pressure of soft highly plastic clays. PhD Thesis. Chalmers University of Technology, Goteborg

Sathananthan I, Indraratna B (2006) Plane-strain lateral consolidation with non-Darcian flows. Can Geotech J 43:119–133CrossRef

Sheahan TC, Watters PJ (1997) Experimental verification of CRS consolidation theory. J Geotech Geoenviron Eng 123(5):430–437CrossRef

Smith RE, Wahls HE (1969) Consolidation under constant rate of strain. ACSE J Soil Mech Found Div 95(SM2):519–539

Tolga AO (2005) Estimation of consolidation and drainage properties for Lake Bonneville clays. PhD thesis, University of Utah, USA

Wissa AEZ, Christian JT, Davis EH, Heiberg S (1971) Consolidation testing at constant rate of strain. J Soil Mech Found Div ASCE 97(10):1393–1413

Youn CY, Chung CK (2005) Consolidation test at constant rate of strain for radial drainage. Geotech Test J 28(1):1–8

Titel: Investigation on the Characteristics of Pore Water Flow During CRS Consolidation Test
verfasst von: H. Ahmadi
H. Rahimi
A. Soroush
Publikationsdatum: 01.11.2011
Verlag: Springer Netherlands
Erschienen in: Geotechnical and Geological Engineering / Ausgabe 6/2011
Print ISSN: 0960-3182
Elektronische ISSN: 1573-1529
DOI: https://doi.org/10.1007/s10706-011-9431-z

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