A geochemical, mineralogical and geotechnical characterization of the low plastic, highly sensitive glaciomarine clay at Dragvoll, Norway

The sediments at the NTNU research site Dragvoll, Trondheim, Norway accumulated in seawater close to the glacier front during the Pleistocene-Holocene transition. A comprehensive site investigation and laboratory test program was carried out to characterize the quick clay at Dragvoll. Downsized bloc...

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Published in:AIMS Geosciences
Main Authors: Helle, Tonje Eide, Aagaard, Per, Nordal, Steinar, Long, Michael, Bazin, Sara
Format: Article in Journal/Newspaper
Language:English
Published: 2019
Subjects:
Norway
glacier
Online Access:http://hdl.handle.net/11250/2616529
https://doi.org/10.3934/geosci.2019.4.704
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spelling ftngi:oai:ngi.brage.unit.no:11250/2616529 2023-05-15T16:22:00+02:00 A geochemical, mineralogical and geotechnical characterization of the low plastic, highly sensitive glaciomarine clay at Dragvoll, Norway Helle, Tonje Eide Aagaard, Per Nordal, Steinar Long, Michael Bazin, Sara 2019 application/pdf http://hdl.handle.net/11250/2616529 https://doi.org/10.3934/geosci.2019.4.704 eng eng AIMS Geosciences. 2019, 5 (4), 704-722. urn:issn:2471-2132 http://hdl.handle.net/11250/2616529 https://doi.org/10.3934/geosci.2019.4.704 cristin:1722308 704-722 5 AIMS Geosciences 4 Peer reviewed Journal article 2019 ftngi https://doi.org/10.3934/geosci.2019.4.704 2022-10-13T05:49:57Z The sediments at the NTNU research site Dragvoll, Trondheim, Norway accumulated in seawater close to the glacier front during the Pleistocene-Holocene transition. A comprehensive site investigation and laboratory test program was carried out to characterize the quick clay at Dragvoll. Downsized block samples, mini-blocks, were extracted and tested in the laboratory. Index testing, constant rate of strain oedometer tests and anisotropically consolidated undrained compression tests were carried out on all quick-clay samples. Pore-water chemistry, bulk and clay mineralogy, cation exchange capacity and specific surface area were determined. Resistivity cone-penetration tests and electrical resistivity tomography surveys were carried out and correlated to the laboratory results. With a clay mineralogy dominated by illite and chlorite, the Dragvoll clay is electro-chemically very active. Leaching has diluted the salt content in the pore water to~0.7 g/L, corresponding to a very low soil conductivity of only 20 mS/m. Due to the low salt content and a composition of cations in the pore-water dominated by sodium (85-92%), the repulsive forces between the clay particles are large. Therefore, the clay liquefies when remolded and has a very brittle behavior. The clay is slightly overconsolidated in top, with an overconsolidation ratio decreasing towards 1 at around 6 m depth. Developing new cost-effective ground improvement methods that may also serve as landslide mitigation measures in quick-clay areas is needed. Detailed knowledge on mineralogy and geochemistry is necessary to fully understand the behavior of clays, and in developing effective ground improvement methods by chemical additives. This paper present geochemical, mineralogical and geotechnical data from the quick clay at Dragvoll. A field experiment at Dragvoll showed that potassium chloride can be used as landslide mitigation in quick-clay areas, inhibiting retrogressive landslides and reducing the risk for progressive landslides. publishedVersion Article in Journal/Newspaper glacier Norwegian Geotechnical Institute (NGI) Digital Archive Norway AIMS Geosciences 5 4 704 722
institution Open Polar
collection Norwegian Geotechnical Institute (NGI) Digital Archive
op_collection_id ftngi
language English
description The sediments at the NTNU research site Dragvoll, Trondheim, Norway accumulated in seawater close to the glacier front during the Pleistocene-Holocene transition. A comprehensive site investigation and laboratory test program was carried out to characterize the quick clay at Dragvoll. Downsized block samples, mini-blocks, were extracted and tested in the laboratory. Index testing, constant rate of strain oedometer tests and anisotropically consolidated undrained compression tests were carried out on all quick-clay samples. Pore-water chemistry, bulk and clay mineralogy, cation exchange capacity and specific surface area were determined. Resistivity cone-penetration tests and electrical resistivity tomography surveys were carried out and correlated to the laboratory results. With a clay mineralogy dominated by illite and chlorite, the Dragvoll clay is electro-chemically very active. Leaching has diluted the salt content in the pore water to~0.7 g/L, corresponding to a very low soil conductivity of only 20 mS/m. Due to the low salt content and a composition of cations in the pore-water dominated by sodium (85-92%), the repulsive forces between the clay particles are large. Therefore, the clay liquefies when remolded and has a very brittle behavior. The clay is slightly overconsolidated in top, with an overconsolidation ratio decreasing towards 1 at around 6 m depth. Developing new cost-effective ground improvement methods that may also serve as landslide mitigation measures in quick-clay areas is needed. Detailed knowledge on mineralogy and geochemistry is necessary to fully understand the behavior of clays, and in developing effective ground improvement methods by chemical additives. This paper present geochemical, mineralogical and geotechnical data from the quick clay at Dragvoll. A field experiment at Dragvoll showed that potassium chloride can be used as landslide mitigation in quick-clay areas, inhibiting retrogressive landslides and reducing the risk for progressive landslides. publishedVersion
format Article in Journal/Newspaper
author Helle, Tonje Eide
Aagaard, Per
Nordal, Steinar
Long, Michael
Bazin, Sara
spellingShingle Helle, Tonje Eide
Aagaard, Per
Nordal, Steinar
Long, Michael
Bazin, Sara
A geochemical, mineralogical and geotechnical characterization of the low plastic, highly sensitive glaciomarine clay at Dragvoll, Norway
author_facet Helle, Tonje Eide
Aagaard, Per
Nordal, Steinar
Long, Michael
Bazin, Sara
author_sort Helle, Tonje Eide
title A geochemical, mineralogical and geotechnical characterization of the low plastic, highly sensitive glaciomarine clay at Dragvoll, Norway
title_short A geochemical, mineralogical and geotechnical characterization of the low plastic, highly sensitive glaciomarine clay at Dragvoll, Norway
title_full A geochemical, mineralogical and geotechnical characterization of the low plastic, highly sensitive glaciomarine clay at Dragvoll, Norway
title_fullStr A geochemical, mineralogical and geotechnical characterization of the low plastic, highly sensitive glaciomarine clay at Dragvoll, Norway
title_full_unstemmed A geochemical, mineralogical and geotechnical characterization of the low plastic, highly sensitive glaciomarine clay at Dragvoll, Norway
title_sort geochemical, mineralogical and geotechnical characterization of the low plastic, highly sensitive glaciomarine clay at dragvoll, norway
publishDate 2019
url http://hdl.handle.net/11250/2616529
https://doi.org/10.3934/geosci.2019.4.704
geographic Norway
geographic_facet Norway
genre glacier
genre_facet glacier
op_source 704-722
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AIMS Geosciences
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op_relation AIMS Geosciences. 2019, 5 (4), 704-722.
urn:issn:2471-2132
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https://doi.org/10.3934/geosci.2019.4.704
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op_doi https://doi.org/10.3934/geosci.2019.4.704
container_title AIMS Geosciences
container_volume 5
container_issue 4
container_start_page 704
op_container_end_page 722
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