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Title: PREDICTION OF HIGH-RISE BUILDING SETTLEMENT FOUNDED IN NEOGENE CLAY
PREDICTION OF HIGH-RISE BUILDING SETTLEMENT FOUNDED IN NEOGENE CLAY

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Z. Gallikova
10.5593/sgem2018/1.2/S02.072
1314-2704
978-619-7408-36-2
English
18
1.2
Hydrogeology, Engineering Geology and Geotechnics
The article deals with the prediction of deformation progress of the basement for a high-rise building founded in a deep foundation pit of 12.0 m below the ground level. Foundation consists of a stiff reinforcement concrete raft with basement in a Neogene layer of several ten metres. The deformation progress of the footing bottom is predicted by numerical approach of a finite-element method and the results are subsequently confronted with geotechnical monitoring. For this purpose, the input parameters were calibrated on the basis of the laboratory data, which were experimentally obtained by triaxial, oedometric and ring shear test. Advanced hypoplastic constitutive model for clay used in numerical study. Some parameters of intergranular strain concept were optimized. The results of the performed optimization present an identical shape of the deconsolidation curve of the footing bottom in phase of unloading by the excavation. However, they indicate difference in the range from 15 % to 30 % of total settlement in comparison with subsoil consolidation process.
conference
https://www.sgem.org/index.php/jresearch-article?citekey=Gallikova20182569576
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18th International Multidisciplinary Scientific GeoConference SGEM 2018
18th International Multidisciplinary Scientific GeoConference SGEM 2018, 02-08 July, 2018
Proceedings Paper
STEF92 Technology
International Multidisciplinary Scientific GeoConference-SGEM
Bulgarian Acad Sci; Acad Sci Czech Republ; Latvian Acad Sci; Polish Acad Sci; Russian Acad Sci; Serbian Acad Sci & Arts; Slovak Acad Sci; Natl Acad Sci Ukraine; Natl Acad Sci Armenia; Sci Council Japan; World Acad Sci; European Acad Sci, Arts & Letters; Ac
569-576
02-08 July, 2018
website
cdrom
202
high-rise building; deep excavation; settlement; clay; hypoplastic model