Thakur / Locat / L'Heureux | Landslides in Sensitive Clays | Buch | 978-3-319-85924-8 | www.sack.de

Buch, Englisch, Band 46, 603 Seiten, Previously published in hardcover, Format (B × H): 155 mm x 235 mm, Gewicht: 1045 g

Reihe: Advances in Natural and Technological Hazards Research

Thakur / Locat / L'Heureux

Landslides in Sensitive Clays

From Research to Implementation
Softcover Nachdruck of the original 1. Auflage 2017
ISBN: 978-3-319-85924-8
Verlag: Springer International Publishing

From Research to Implementation

Buch, Englisch, Band 46, 603 Seiten, Previously published in hardcover, Format (B × H): 155 mm x 235 mm, Gewicht: 1045 g

Reihe: Advances in Natural and Technological Hazards Research

ISBN: 978-3-319-85924-8
Verlag: Springer International Publishing

This book gathers the most recent scientific research on the geological, geotechnical and geophysical aspects of slope failure in sensitive clays. Gathering contributions by international experts, it focuses on understanding the complete and practical spectrum of challenges presented by landslides in such complex materials. Based on sound and validated research results, the book also presents several recommendations that could be implemented in the guidelines or code-of-practice. These recommendations cover topics including the characterization and behavior of sensitive clays; the pre-failure, failure and post-failure stages of sensitive clays; mapping and identification methods; climate change; hazard assessment; and risk management.

Sensitive clays are known for their potential for causing large landslides, which pose a serious risk to human lives, infrastructure, and surrounding ecosystems within their reach. This has been demonstrated by the recent catastrophic landslides in e.g. Sørum (2016), Skjeggestad (2015), Statland (2014), Byneset (2012), St-Jude (2010), Lyngen (2010) and Kattmarka (2009). The 2015 collapse of the Skjeggestad Bridge in Norway – which was due to a landslide in sensitive clay – alone costs millions of dollars in repairs. Recently, efforts are being made to increase society’s ability to cope with such landslide hazards. Geoscientists are now expected to provide input to the agencies responsible for landslide-risk preparedness. In other words, geoscientists’ role is not only to act as technologists to establish new theories, but also to go the extra mile to implement them in practice, so as to find meaningful solutions to geotechnical problems.
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Zielgruppe

Research

Autoren/Hrsg.

Thakur, Vikas
Locat, Ariane
L'Heureux, Jean-Sébastien

Fachgebiete

Weitere Infos & Material

1.      Landslide in sensitive clays: From Research to Implementation 
                                                     

Part I: Characterization and behavior of sensitive clays

Sensitive clays of Eastern Canada: from geology to slope stability
                                                  

3.      Chemistry: An Essential Key to Understanding High-Sensitivity and Quick Clays and to Ad-dressing Landslide risk

4.      Improving the post-failure properties in quick clays by treatment with potassium chloride

5.      CPTU classification diagrams for identification of sensitive clays

Relationships between shear wave velocity and geotechnical parameters for Norwegian and Swedish sensitive clays

 

7.      Geophysical and geotechnical characterization of a sensitive clay deposit in Brownsburg, Quebec

8.      Investigating how the changes in geotechnical properties of sensitive clays influence their geophysical properties

9.      Determination of Remoulding Energy of Sensitive Clays

10.   Problems related to field vane testing in soft soil conditions and improved reliability of measurements using an innovative field vane device

11.   A new laboratory procedure to study stress relief in soil samples
 

12.   Sample disturbance in deep clay samples

13.   Effects of sample disturbance in the determination of soil parameters for advanced finite element modelling of sensitive clays

14.   Viscometric tests of sensitive clay from Byneset, Norway, and fit to the Herschel–Bulkley model

15.   Dynamic properties of a sensitive clay deposit


Part II: Pre-failure and failure stages

16.   The role of instability and shear band localisation in triggering landslides in sensitive clays
 

17.   Vibratory roller influence zone near slopes with vibration susceptible soils
 

18.   Bayesian updating of uncertainties in the stability analysis of natural slopes in sensitive clays
 

19.   Potential Landsliding at the North Spur, Churchill River Valley

20.   Correction factors for undrained LE analyses of sensitive clays
 

21.   Advances in determining ?u and su for Limit Equilibrium analyses

22.   Recommended practice for the use of strength anisotropy factors in stability calculations

23.   On the benefits of incorporating anisotropy in stability analyses in sensitive clays
 

24.   Development and application of a regional slope stability assessment screening tool

Part III: Post-failure stage

25.   The use of LiDAR airborne data for retrogressive landslides inventory in sensitive clays, Québec, Canada

26.   Runout of landslides in sensitive clays

27.   Parametric analysis of the mobility of debris from flow slides in sensitive clays

28.   Mapping quick clay hazard zones: Comparison of methods for the estimation of the retrogression distance
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29.   Modelling of the quickness test of sensitive clays using the generalized interpolation material point method

30.   Back-calculation of the Byneset flow slide using the Voellmy rheology

31.   Effect of strain softening behaviours on run-out distance of a sensitive clay landslide

Part IV: Case records, slides in sensitive sediments including offshore and nearshore slides

32.   The 1908 disaster of Notre-Dame-de-la-Salette, Québec, Canada: analysis of the landslide and tsunami

33.   Fv. 287 Strandgata – Kjøreplass bru. Road construction in quick clay

34.   Case study: Characterization of a thick sensitive clay deposit in the St. Lawrence River valley, slope stability analysis and preliminary assessment of permanent deformations

35.   Revisiting the 1959 quick clay landslide at Sokkelvik, Norway

36.   Geotechnical evaluation of a quick clay area in Trondheim, Norway

37.   Saguenay risk management

Part V: Sensitive clays mapping and identification

38.   Development of a methodology for quick clay mapping

39.   Helicopter electromagnetic scanning as a first step in regional quick clay mapping
 

40.   Developments in mapping and web presentation of fjord-marine deposit distributions for quick-clay related work in Norway

41.   Analysis of ground geophysical, airborne TEM, and geotechnical data for mapping quick clays in Sweden

42.   Investigation of a sensitive clay landslide area using frequency domain helicopter-borne and ground geophysical methods

43.   The Norwegian National Database for Ground investigations (NADAG) - a tool to assist in landslide hazard zonation and other quick-clay related issues

44.   Future strategy for soil investigations in quick clay areas

Part VI: Hazard assessment and risk management

45.   Reliability of slopes in sensitive clays
 

46.   Natural hazards in a changing climate in Norway

47.   Development of a long term monitoring network of sensitive clay slopes in Québec in the context of climate change

48.   Practicing hazard mitigation strategies for a construction on a sensitive clay slope
 

49.   Mapping of landslide risks in a changing climate – Development of simplified methodology

50.   Quick-clay hazard mapping in Norway

Author index

Subject index

Vikas Thakur is professor at the Department of Civil and Environmental Engineering at the Norwegian University of Science and Technology (NTNU). He is expertise in the characterization of soft and sensitive clays, sample disturbances, slope stability, landslides hazard assessment, risk analysis, failure mechanism and strain localization, soft clay stabilization, element testing and physical modelling, finite element modelling, and unsaturated soil mechanics. He is also acknowledge for his pragmatic approaches to bridge the gap between research and practice.

Jean-Sebastien L'Heureux is a senior geotechnical engineer and Technical Lead for landslides at the Norwegian Geotechnical Institute (NGI) in Norway. He has a broad experience from research and consulting projects associated with mapping of landslide hazard and risk assessment on- and off-shore. Jean-Sebastien's interest include integration of geophysical, geological and geotechnical data for the understanding of soil behaviour, in situ testing and slope processes in sensitive clay terrain.

Ariane Locat is a professor at the Civil Engineering and Water Engineering Department of Université Laval, in Canada. Her main research topic is investigation and characterisation of large landslides in sensitive clays. Her interests include the nature of soil and its mechanical behaviour, slope stability, and risk analysis.

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