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This article contains the analysis of the correlation between the cone resistance qc from CPTU tests and shear modulus G0 determined from seismic tests SDMT and SCPTU. The analysis was performed for sands located in Poland, characterised by differential grain size distribution and origin. The significant impact of the independent variables; grain size, preconsolidation stress σ’p, geostatic vertical stress σ’v0 and relative density index on the dependencies analysed, were examined in three stages. Firstly, a general relationship between the cone resistance and shear modulus G0 was established; in the second stage, an analysis was carried out in selected groups of subsoil; and in the third stage, the influence of other independent variables was taken into account. In each stage, the functional form of the dependency was determined, and their statistical significance was assessed throughout coefficient of determination R2. For more variables, multivariable regression analysis was applied for assessment. Conducted analysis showed that the overall view of the relation between the cone resistance qc and shear modulus G0 has low evaluation of the statistical significance. This fact is consistent with the theoretical assessment of this relationship. To obtain a satisfactory assessment of this dependency, it is necessary to construct empirical equations for individual groups of soil, taking into account other independent variables; preconsolidation stress σ’p, vertical stress σ’vo and relative density index. This approach allows to assess the local correlation relationship, which is very useful during the geological project.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
195--205
Opis fizyczny
Bibliogr. 18 poz., rys.
Twórcy
autor
- Poznań University of Life Sciences, Poland
autor
- Institute of Geology, Adam Mickiewicz University, Poznan, Poland
autor
- Norwegian Geotechnical Institute, Oslo, Norway
Bibliografia
- [1] ASTM, Standard Test Methods for Downhole Seismic Testing, D 7400-08, West Conshohocken, PA, United States, 2008.
- [2] Foti, S., Lancellotta, R., Marchetti, D., Monaco, P. Totani, G. (2006). Interpretation of SDMT tests in a transversely isotropic medium. In: 2nd International Flat Dilatometer Conference, Washington D.C. USA, 275-280.
- [3] Hardin B.O. (1978). The nature of stress-strain behaviour for soils. In: ASCE Geotechnical Division Specialty Conference on Earthquake Engineering and Soil Dynamics, Pasadena, 1, 3-90.
- [4] Jamiolkowski M., Lancellotta R., Lo Presti D.C.F. (1995). Remarks on the stiffness at small strain of six Italian clays. In: International Symposium on Pre-failure Deformation Characteristics of Geomaterials, Hokkaido ’94, v.2, 817-836.
- [5] Jamiolkowski, M., Lo Presti, D.C.F., Manassero, M. (2001). Evaluation of relative density and shear strength of sands from cone penetration test (CPT) and flat dilatometer test (DMT). ASCE Geotechnical Special Publication No. 119, 201–238.
- [6] Lacasse S, Nadim, F. (1994). Reliability issues and future challenges in geotechnical engineering for offshore structures. In: International Conference. Behaviour of offshore structures. Boss94, Cambridge Mass.
- [7] Lee S.H.H, Stoke K.H. (1986). Investigation of low amplitude shear wave velocity in anisotropic materials. Geotechnical Report No. GR 86-6, Civil Engineering Department, University of Texas, Austin.
- [8] Lumb P. (1974). Applications of Statistics in Soil Mechanics. In: Soil Mechanics-New Horizons. Edited by Lee J, K. Newness- Batterworth, London.
- [9] Lunne T., Robertson P.K., Powell J.J.M. (1997). Cone penetration testing in geotechnical practice. E&FN Spon, London.
- [10] Lunne, T., Long, M. & Forsberg, C. (2003). Characterization and engineering properties of Holmen sand. Characterization and Engineering Properties of Natural Soils (1), Swets and Zeitlinger, Lisse, 1121-1148.
- [11] Mayne P.W. (2001). Stress-strain-strength-flow parameters from enhanced in-situ tests. In: International Conference on In-Situ Measurement of Soil Properties & Case Histories [In-Situ 2001], Bali, Indonesia, May 21-24, 2001.
- [12] Młynarek Z. (2007). Site investigation and mapping in urbanarea.” In: Geotechnical Engineering in Urban Environments, Madrid. Vol. 1. Edited by V. Cuéllar et al. Millpress Science Publishers, Rotterdam, 175-202.
- [13] Młynarek Z. (2010). Quality of in situ and laboratory tests contribution to risk management, In: 14th Danube-European Conference on Geotechnical Engineering, Bratislava, Slovakia, 2-4.06.2010.
- [14] Młynarek Z., Gogolik S., Marchetti S., Marchetti D. (2006). Suitability of SDMT test to assess geotechnical parameters of post-flotation sediment. In: 2nd International Flat Dilatometer Conference, Washington D.C. USA, 148-153.
- [15] Młynarek Z., Wierzbicki J., Stefaniak K. (2012). Deformation characteristics of overconsolidated subsoil from CPTU and SDMT tests. In: Geotechnical and Geophysical Site Characterization 4, Edited by R. Q. Coutinho & P.W. Mayne. Taylor & Francis Group, London, 1189-1193.
- [16] Młynarek Z., Wierzbicki J. & Stefaniak K. (2018). Interrelationship between undrained shear strength from DMT and CPTU tests for soils of different origin. Geotechnical Testing Journal, 41(5), 890-901.
- [17] Młynarek Z., Wierzbicki J., Stefaniak K. (2019). Usefulness of the CPTU method in evaluating unit weight of soil changes in the subsoil. Inżynieria Morska i Geotechnika. 6, 294-302.
- [18] Wierzbicki J. (2010). Evaluation of subsoil over consolidation by means of in situ tests at aspect of its origin. University of Life Sciences in Poznań Publishing, 410, Poznań, Poland.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e8fca3c8-dad0-4b6c-8bec-e8f1ba08a5e5