On the Possibility of Testing Miocene Clay from Cracow Area using Weight Sounding Test (WST)

[1] CAŁA M., OLESIAK S., Metoda wyznaczania wybranych właściwości wytrzymałościowych iłów górnomioceńskich rejonu Krakowa na podstawie badań sondą wkręcaną WST, Górnictwo i Geoinżynieria, 2011, 2, 139-148.Search in Google Scholar

[2] CUBRINOVSKI M., Geotechnical aspects of the 2010 Darfield (Canterbury) Earthquake, Bangladesh Geotechnical Conference 2010: Natural Hazards and Countermeasures in Geotechnical Engineering, 4-5 November 2010, Dhaka, Bangladesh, Proceedings of the Bangladesh Geotechnical Conference 2010, 75-85.Search in Google Scholar

[3] CUBRINOVSKI M., ORENSE R., Case story. 2011 Darfield (New Zealand) Earthquake: Impact of liquefaction and lateral spreading, International Society for Soil Mechanics and Geotechnical Engineering ISSMGE Bulletin, 2010, 4(4), 15-25.Search in Google Scholar

[4] DAS B.M., Advanced soil mechanics, Taylor & Francis Group, New York, 2008.Search in Google Scholar

[5] Draft international standard ISO/DIS 22476-9:2010 Geotechnical investigation and testing. Field testing. Part 9: Field vane test.Search in Google Scholar

[6] FORSMAN J., KOIVISTO K., LEPPÄNEN M., Case stories, Industrial and commercial areas - Deep Stabilization of the Yards of IKEA in Vantaa, Finland, International Mass Stabilization Conference 2008, October 8th - 10th 2008, Lahti, Finland, 2008.Search in Google Scholar

[7] HABIBI M., CHESHOMI A., FAKHER A., A case study of liquefaction assessment using Swedish Weight Sounding, 4th International Conference on Earthquake Engineering. Taipei, Taiwan, October 12-13, 2006, Paper No. 038.Search in Google Scholar

[8] HILL T., LEWICKI P., Statistics: Methods and Applications, StatSoft, Tulsa, 2007.Search in Google Scholar

[9] INADA M., Use of the Swedish type sounding test results, Soil mechanics and foundation engineering: Japanese Geotechnical Society, 1960, 8(1), 13-18 (in Japanese).Search in Google Scholar

[10] KACZYŃSKI R., Wytrzymałość i odkształcalność górnomioceńskich iłów zapadliska przedkarpackiego, Biuletyn Geologiczny, 1981, 29, 105-193.Search in Google Scholar

[11] KACZYŃSKI R., Table of engineering-geological properties of miocene clays of the Carpathian Foredeep, [in:] A. Anagnostopoulos, R. Frank, N. Kalteziotis, F. Schlosser (eds.), Geotechnical engineering of hard soils - soft rocks, Proceedings of an International Symposium Under the Auspices of the International Society for Soil Mechanics and Foundation Engineering (ISSMFE), Athens, Greece, 20-23 September 1993, Vol. 1, Geological features, investigation and classification, mechanical properties, Balkema, Rotterdam, 1993, 189-194.Search in Google Scholar

[12] KOT S.M., JAKUBOWSKI J., SOKOŁOWSKI A., Statystyka, Difin, Warszawa, 2011.Search in Google Scholar

[13] KUWANO J., OGAWA., KIMURA T., AOKI H., Liquefaction hazard evaluation by Swedish Weight Sounding Test, [in:] B. Marić, Z. Lisac, A. Szavits-Nossan (ed.), Geotechnical Hazards, Proceedings of the XIth Danube-European Conference on Soil Mechanics and Geotechnical Engineering, Propeč, Croatia, 25-29 May 1998, Balkema, Rotterdam, 1998, 337-342.10.1201/9781003078173-38Search in Google Scholar

[14] LARSON R., Investigations and load test in silty soils. Results from a series of investigations in silty soils in Sweden, Report No. 54, Linköping, Swedish Geotechnical Institute, 1997.Search in Google Scholar

[15] MATSUSHITA K., FUJII M., TAKATA T., Damage of houses and residential areas by Niigata Prefecture Earthquake (Part 1), Proceedings of the Eighteenth (2008), International Offshore and Polar Engineering Conference, Vancouver, BC Canada, July 6-11, 2008, The International Society of Offshore and Polar Engineers (ISOPE), 2008, 743-748.Search in Google Scholar

[16] MELZER K.J, BERGDAHL U., Geotechnical field investigations, [in:] U. Smoltczyk (ed.), Geotechnical engineering handbook, Vol. 1, Fundamentals, Ernst & Sohn Verlag, Berlin, 2002.Search in Google Scholar

[17] MIWA S., AYDAN Ö., KOMADA H., KIYONO J., ENDO I., SUZUKI T., HAMADA M., Damage in Nias Island caused by the M8.7 off-shore Sumatra Earthquake, March 28, 2005, First European Conference on Earthquake Engineering and Seismology, A joint event of the 13th ESEE & 30th General Assembly of the ESC, Geneva, Switzerland, 3-8 Septembet 2006, Paper No. 1426.Search in Google Scholar

[18] OKADA K., TOMOYASU S., MURAISHI H., NOGUCHI T., SAMIZO M., Correlation between soil strength of embankment surface using different sounding test, Journal of the Japanese Geotechnical Society, Soils and Foundations, 1996, 36(3), 43-50.10.3208/sandf.36.3_43Search in Google Scholar

[19] OLESIAK S., Wykorzystanie sondy wkręcanej WST w badaniach mioceńskich iłów krakowieckich, Górnictwo i Geoinżynieria, 2009, 1, 467-473.Search in Google Scholar

[20] OLESIAK S., Sonda wkręcana WST w badaniach mioceńskich iłów krakowieckich, Górnictwo i Geoinżynieria, 2010, 2, 501-507.Search in Google Scholar

[21] OLESIAK S., Kalibracja sondy wkręcanej WST do badań górnomioceńskich iłów zapadliska przedkarpackiego w rejonie Krakowa, Górnictwo i Geoinżynieria, 2011, 2, 463-470.Search in Google Scholar

[22] OLESIAK S., Możliwości wykorzystania sondy wkręcanej WST do badań wybranych gruntów spoistych w rejonie Krakowa, Inżynieria Morska i Geotechnika, 2013, 6, 534-539.Search in Google Scholar

[23] PISARCZYK S., RYMSZA B., Badania polowe i laboratoryjne gruntów, Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa, 1993.Search in Google Scholar

[24] POLSKA NORMA PN-B-04481:1988 Grunty budowlane. Badania próbek gruntu.Search in Google Scholar

[25] POLSKA NORMA PN-EN 1997-2:2009 Eurokod 7. Projektowanie geotechniczne. Część 2: Rozpoznanie i badanie podłoża gruntowego.Search in Google Scholar

[26] POLSKA NORMA PN-EN ISO 14688-2:2006 Badania geotechniczne. Oznaczanie i klasyfikowanie gruntów. Część 2: Zasady klasyfikowania.Search in Google Scholar

[27] RANKKA K., ANDERSON-SKÖLD Y., HULTÉN C., LARSSON R., LEROUX V., DAHLIN T., Quick clay in Sweden. Processes leading to formation of quick clay. Geological and hydrogeological conditions for formation of quick clay in nature. Mapping of quick clay formations by geotechnical and geophysical methods, Report No. 65, Linköping, Swedish Geotechnical Institute, 2004.Search in Google Scholar

[28] TAKATA T., FUJII M., MATSUSHITA K., SEKI H., Damage of houses and residential areas by Niigata Prefecture Earthquake (Part 2). Proceedings of the Eighteenth (2008) International Offshore and Polar Engineering Conference, Vancouver, BC Canada, July 6-11, 2008, The International Society of Offshore and Polar Engineers (ISOPE), 2008, 749-755.Search in Google Scholar

[29] TAYLOR M.L., CUBRINOVSKI M., Preliminary assessment of liquefaction in urban areas following the 2010 Darfield Earthquake, Proceedings of the Ninth Pacific Conference on Earthquake Engineering: Building an Earthquake-Resilient Society, 14-16 April, 2011, Auckland, New Zealand. Paper 56, 2011.Search in Google Scholar

[30] TECHNICAL SPECIFICATION ISO/TS 22476-10:2005 Geotechnical investigation and testing. Field Testing. Part 10: Weight Sounding Test.Search in Google Scholar

[31] TOWHATA I., GHALANDARZADEH A., SHAHNAZARI H., MOHAJERI M., SHAFIEE A., Seismic behavior of local soil and foundations in Bam City during the 2003 Bam Earthquake in Iran, Bulletin Earthquake Research Institute, University of Tokyo, 2004, 13, 69-80.Search in Google Scholar

[32] TOWHATA I., PRASAD S.K., HONDA T., CHADRADHARA G.P., Geotechnical reconnaissance study on damage caused by 2001 Gujart Earthquake, India, Journal of the Japanese Geotechnical Society, Soils and Foundations, 2002, 42(4), 77-88.10.3208/sandf.42.4_77Search in Google Scholar

[33] TSUKAMOTO Y., ISHIHARA K., HARADA K., Evaluation of undrained shear strength of soils from field penetration test, Journal of the Japanese Geotechnical Society, Soils and Foundations, 2009, 49(1), 11-23.10.3208/sandf.49.11Search in Google Scholar

[34] TSUKAMOTO Y., ISHIHARA K., SAWADA S., Correlation between penetration resistance of Swedish Weight Sounding Test and SPT blow counts in sandy soils, Journal of the Japanese Geotechnical Society, Soils and Foundations, 2004, 44(3), 13-24.10.3208/sandf.44.3_13Search in Google Scholar

[35] WAKAMATSU K., YASUDA S., Liquefaction case histories of volcanic deposit, [in:] Ishihara (ed.), Earthquake Geotechnical Engineering, Proceedings of Is-Tokyo’95, The First International Conference on Earthquake Geotechnical Engineering, Tokyo, 14-16 November 1995, Vol. 1. Balkema, Rotterdam, 1995, 19-24.Search in Google Scholar

[36] YAMADA S., ORENSE R., CUBRINOVSKI M., Earthquake News, Geotechnical Damage due to the 2011 Christchurch, New Zealand, International Society for Soil Mechanics and Geotechnical Engineering ISSMGE Bulletin, 2011, 5(2), 27-45.10.5459/bnzsee.45.1.15-22Search in Google Scholar

[37] ZARCO M.A.H., PECKLEY D.C., TAN S.P.V., Guidelines of the Swedish weight sounding test (SWST) in the Philippine settings, [in:] International Symposium on a Robust and Resilient Society against Natural Hazards & Environmental Disasters and The Third AUN/Seed-Net Regional Conference on Geo-Disaster Mitigation, Kyoto University, Uji, Japan, 24-26 August 2010, 392-400. Search in Google Scholar