Powiadomienia systemowe
- Sesja wygasła!
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
This publication presents the results of research carried out for the ice-dammed clays of the Iłów region, formed during Vistula glaciation. Pressuremeter tests, dilatometer tests and static probes were made. The tests were performed on the study site in Piskorzec near Iłów. In this region, ice-dammed clays are present almost from the land surface reaching the thickness of about 11 m. This site is the westernmost experimental site of clays of the “Warsaw Ice-Dammed Lake” among those presented in the literature. Research and their analysis showed differences in deformability due to the test procedure in connection with the structure of varved clays. Pressuremeter test, even though it is the most time consuming and challenging among the tests performed, allows the most complete characteristics of deformability of varved clays to be obtained. Vertical profile of clays being studied appears to be fairly homogeneous in terms of mechanical properties. Nevertheless, some parts of the profile clearly differ from the average values. This indicates the rate of post sedimentary changes varied in different parts of research profile. The data obtained are consistent with the values for ice-dammed clays from Radzymin and Sochaczew areas. Comparison of the engineering properties of varved clays to other experimental sites points to their similar geological history. It confirms that the experimental sites belong to one ice-dammed lake covering the areas of the Warsaw Basin.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
89--100
Opis fizyczny
Bibliogr. 31 poz., rys., tab.
Twórcy
autor
- University of Warsaw, Faculty of Geology, Institute of Hydrogeology and Engineering Geology
Bibliografia
- [1] BAGUELIN F., JÉZÉQEEL J.F., SHIELDS D.H., The Pressuremeter and foundation engineering, Trans. Tech. Publications., Clausthal, 1978.
- [2] BOONE J., LUTENEGGER J., Carbonates and cementation of glacially derived cohesive soils in New York State and southern Ontario, Canadian Geotechnical Journal, 1997, 34, 534–550.
- [3] BURLAND J.B., RAMPANELLO S., GEORGIANNOU V.N., CALABRESHI G., A laboratory study of the strength of four stiff clays, Géotechnique, 1996, 46, 3, 491–514.
- [4] DZIERŻEK J., (ed.) Relief and Quatenary sediments of centraleastern Poland – a guide to the field course in geomorfology and Quatenary geology, Faculty of Geology, University of Warsaw, Warsaw 2001, 41–51.
- [5] FRANKOWSKI Z., Interpretation of dynamic sounding and pressuremeter test results, [in:] Seminar on modern methods of soil investigation, Building Research Institute, Warsaw 2003, (in Polish).
- [6] GAMBIN M., MAGNAN J.P., MESTAT P., 2005, ISP – Pressio 2005 – International Symposium 50 years of pressuremeters, Marne-la-Valléé, Vol. 1, Vol. 2. Presses Ecole Nationale Ponts et Chaussées, Paris 2005.
- [7] KOZYDRA Z., MARZEC M., RUSZKOWSKA H., Catalogue of selected clay deposits for building ceramics in Poland (ed. Kozłowski S.), Wydawnictwa Geologiczne, Warsaw 1977, (in Polish with English Summary).
- [8] LUKAS G.L., LECLERC DE BUSSY B., Pressuremeter and Laboratory Test Correlations for Clays, Journal of the Geotechnical Engineering Division, American Society of Civil Engineers, 1976, 102, GT 9, September: 945–963.
- [9] LUNNE T., ROBERTSON P.K., POWELL J.J.M., Cone Penetration Testing in geotechnical practice, E&FN SPON, London 1997.
- [10] MARCHETTI S., In Situ Tests by Flat Dilatometer, Journal of the Geotechnical Engineering Division, ASCE, Vol. 106, No. GT3, Proc. Paper 15290, 1980, 299–321.
- [11] MARCHETTI S., The Flat Dilatometer and its applications to Geotechnical Design, International Seminar on DMT held at the Japanese Geot. Society, Tokyo, 12 Feb 1999, pp. 90.
- [12] MAYNE P.W., HOLTZ R.D., Profiling stress history from piezocone soundings, Soils and Foundations, 1988, 28, 1, 16–28.
- [13] MAYNE P.W., KULHAWY F.H., Direct and indirect measurements of in-situ Ko in clays, Transportation Research Record 1278, Washington D.C., 1990, 141–149.
- [14] MERTA T., Extraglacial deposits of the Warsaw Ice-Dammed Lake (younger Pleistocene), Mazovia Lowland, Central Poland, Acta Geologica Polonica, 1978, 28, 241–271.
- [15] MORI H., TAJIMA S., The Application of the Pressiometre Method to the Design of Deep Foundations, Soil and Foundations, Tokyo, 1964, 4, 2, 34–44.
- [16] MŁYNAREK Z., NIEDZIELSKI A., TSCHUSCHKE W., The static penetration results in varved clay, Proc. 2nd Eur. Symp. on Penetration Testing. Balkema, Amsterdam, 1982, 715–721.
- [17] MŁYNAREK Z., TSCHUSCHKE W., WIERZBICKI J., Assessment of coefficient of earth pressure at rest based on DMT and CPTU, (in Polish with English summary). Budownictwo – Zesz. Nauk. Politechniki Białostockiej, 2006, 28, 1, 213–226.
- [18] MŁYNAREK Z., WIERZBICKI J., Nowe możliwości i problemy interpretacyjne polowych badań gruntów, [in:] Współczesne problemy geologii inżynierskiej w Polsce, R. Radaszewski (ed.), Bogucki Wyd. Naukowe Poznań, 2007, 97–118.
- [19] MŁYNAREK Z., HORVÁTH G., Shear parameters of varved clay, Period. Polytech. Civil Eng., 1990, Vol. 34, No. 3–4, 215–223.
- [20] MYŚLIŃSKA E., Influence of sedimentary conditions and of diagenesis of varved clays of the Middle-Polish Glaciation from the Mazovian area upon their engineering-geological properties, Biuletyn Geologiczny Uniwersytetu Warszawskiego, 1965, 7, 3–106, (in Polish with English Summary).
- [21] RÓŻYCKI S.Z., Pleistocene of Central Poland, Wydawnictwo Naukowe PWN, Warsaw 1967, (in Polish).
- [22] SANGLERAT G., The penetrometer and soil exploration, Elsevier, Amsterdam–Oxford–New York 1972.
- [23] SENNESET K., SANDVEN R., JANBU N., The evaluation of soil parameters from piezocone tests, Transportation Research Record, 1989, 1235, 24–37.
- [24] STEFANIAK K., The constrained modulus of varved clay from in situ tests, [in:] Soil parameters from in situ and laboratory tests, E. Dembicki, J. Komisarek (ed.), Wyd. Uniwerstytetu Przyrodniczego w Poznaniu, 2010, 281–290.
- [25] TARNAWSKI M., Errors in pressuremeter tests, Przegląd Geologiczny, 1985, 1, 38–41, (in Polish with English Summary).
- [26] TARNAWSKI M., Application of pressuremeter test in soil investigations, Wydawnictwo Naukowe PWN, Warsaw 2007, (in Polish).
- [27] WIERZBICKI J., PALUSZKIEWICZ RE., PALUSZKIEWICZ RY., Application of cone penetration test in the analysis of stratigraphy of cainozoic sediments, Quastiones Geographicae 25A, Adam Mickiewicz University Press, Poznań 2006, 83–88.
- [28] WIERZBICKI J., PALUSZKIEWICZ RE., PALUSZKIEWICZ RY., Lithological analysis of the Złocieniec proglacial lake sediments based on cone petration test results, [in:] Reconstruction of morphological processes dynamics – landforms and deposits, Warsaw 2007, 427–438, (in Polish with English Summary).
- [29] ZAWRZYKRAJ P., Analysis of consolidation state of varved clays in the Sochaczew and Radzymin area, Dissertation, University of Warsaw 2004, (in Polish).
- [30] ZAWRZYKRAJ P., Evaluation of the preconsolidation effects on the basis compressions studiem of ice-dammed Claus from the vicinity of Warsaw, Geologos, 2007, 11, 499–508, (in Polish with English Summary).
- [31] Zawrzykraj P., Characteristic of mechanical properties of ice-dammed clays from Radzymin area based on pressuremeter tests, Biuletyn PIG, 2011, 446/2, 429–436, (in Polish with English Summary).
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ee60b6a5-804c-44fc-8070-fcef04026e23