Abstract
When dealing with natural geo-hazards it is important to understand the influence of flow characteristics on the submarine landslides, because the flow characteristics of fine-grained soils are most likely governed by the rheological properties. It may further relate to the mobility analysis of debris flow. Geotechnical and rheological investigation on the clay-rich materials were compared with those of silt-rich materials. For the examined fine-grained soils, the flow behavior depends on the volumetric concentration of solid and surface phenomenon, particularly for non-swelling materials. Assuming that the debris flow materials behave as the Bingham fluid, a possible relationship between geotechnical and rheological properties are proposed. From an empirical relationship between yield stress and plastic viscosity, a comparison emphasizes the grain size effect on the rheology of geomaterials encountered in various environments. The larger the particle size involved in the matrix, the lower the value of viscosity which is in the order of 10 times. Debris flow mobility with respect to rheology concerning the large particle size is emphasized.
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References
Barnes, H.A., 1997, Thixotropy- a review. Journal of Non-Newtonian fluid mechanics, 70, 1–33.
Barnes, H.A., 1999, The yield stress — a review or ‘παντ ρɛι’ — everything flows? Journal of Non-Newtonian Fluid Mechanics, 81, 133–178.
Barnes, H.A., Hutton, J.F., and Walters, K., 1989, An Introduction to Rheology. Elsevier, Amsterdam, 212 p.
Bentley, S.P., 1979, Viscometric assessment of remoulded clays. Canandian Geotechnical Journal, 16, 414–419.
Bird, R.B., Armstrong, R.C., and Hassager, O., 1977, Dynamics of polymeric liquids. Volume 1, Fluid Mechanics. John Wiley & Sons, New York, 579 p.
Canals, M., Lastras, G., Urgeles, R., Casamor, J.L., Mienert, J., Cattaneo, A., De Batist, M., Haflidason, H., Imbo, Y., Laberg, J.S., Locat, J., Long, D., Longva, O., Masson, D.G., Sultan, N., Trincardi, F., and Bryn, P., 2004, Slope failure dynamics and impacts from seafloor and shallow sub-seafloor geophysical data: case studies from the COSTA project. Marine Geology, 213, 9–72.
Chen, H. and Lee, C.F., 2002, Runout analysis of slurry flows with Bingham model. Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 128, 1032–1042.
Cheng, D.C-H., 1986, Yield stress: A time-dependent property and how to measure it. Rheologica Acta, 25, 542–554.
Colas, G. and Locat, J., 1992, Analyse de la mobilité de la coulée boueuse de La Valette, Alpes Maritimes, France. Bulletin de liaison du Laboratoire des Ponts et Chaussées, 187, 19–28.
Coussot, P. and Piau, J.-M., 1994, On the behavior of fine mud suspensions. Rheologica Acta, 33, 175–184.
Coussot, P., Laigle, D., Arattano, M., Deganutti, A. and Marchi, L., 1998, Direct determination of rheological characteristics of debris flow. Journal of Hydraulic Engineering, ASCE, 124, 865–868.
Cross, M.M., 1965, Rheology of non-Newtonian fluids: A new flow equation for pseudoplastic systems. Journal of Colloid Science, 20, 417–437.
Cross, M.M., 1970, Kinetic interpretation of Non-Newtonian flow. Journal of Colloid and Interface Science, 38, 30–35.
Elverhøi, A., Norem, H., Andersen, E.S., Dowdeswell, J.A., Fossen, I., Hafidason, H., Kenyon, N.H., Laberg, J.S., King, E.L., Sejrup, H.P., solheim, A., and Vorren, T., 1997, On the origin and flow behavior of submarine slides on deep-sea fans along the Norwegian- Barents Sea continental margin. Geo-marine Letters, 17, 119–125.
Hampton, M.A., Lee, H.J., and Locat, J., 1996, Submarine landslides. Reviews of Geophysics, 34, 33–59.
Huang, X. and Garcia, M.H., 1999, Modelling of non-hydroplaning mudflows on continental slopes. Marine Geology, 154, 131–142.
Imran, J., Parker, G., Locat, J., and Lee, H., 2001, 1D numerical model of muddy subaqueous and subaerial debris flows. Journal of Hydraulic Engineering, 127, 959–968.
Iverson, R.M., 1997, The physics of debris flow. Reviews of Geophysics, 35, 245–296.
Jeong, S.W., 2006, Influence of physico-chemical characteristics of fine-grained sediments on their rheological behavior. Ph.D. thesis, Laval University, Québec, 229 p.
Jeong, S.W., Locat, J., Leroueil, S., and Malet, J.-P., 2007, Rheological properties of fine-grained sediments in modelling submarine mass movements: the role of texture. In: Lykousis, et al. (eds.), Proceedings of the 3rd International Symposium on Submarine Mass Movements and Their Consequences, Santorini. Advances in Natural Hazards Research, Springer, 27, 191–198.
Jeong, S.W., Leroueil, S., and Locat, J., 2009, Applicability of power law for describing the rheology of soils of different origins and characteristics. Canadian Geotechnical Journal, 46, 1011–1023.
Jeong, S.W., Locat, J., Leroueil, S., and Malet, J.-P., 2010, Rheological properties of fine-grained sediments: the roles of texture and mineralogy, Canadian Geotechnical Journal, 47, 1085–1100.
Johnson, A.M. and Rodine, J.R., 1984, Debris flows. In: Brunsdun, D., and Prior, D.B. (eds.), Slope Instability, Wiley, New York, 257–361.
Kvalstad, T.J., Andresen, L., Forsberg, C.F., Berg, K., Bryn, P., and Wangen, M., 2005, The Storegga slide: evaluation of triggering sources and slide mechanics. Marine and Petroleum Geology, 22, 245–256.
Lapointe, M., Secretan, F.Y., Driscoll, S.N., Bergeron, N., and Leclerc, M., 1998, Response of the Ha! Ha! River to the Flood of July 1996 in the Saguenay Region of Quebec: Large-scale Avulsion in a Glaciated Valley. Water Resources Research, 34, 2383–2392.
Locat, J., 1997, Normalized rheological behaviour of fine muds and their flow properties in a pseudoplastic regime. In: Proceedings of the 1st International conference on Debris-Flow Hazards Mitigation, San Francisco, ASCE, New York, 260–269.
Locat, J. and Demers, D., 1988, Viscosity, yield stress, remoulded strength, and liquidity index relationships for sensitive clays. Canadian Geotechnical Journal, 25, 799–806.
Locat, J., Lee, H.J., Nelson, H.C., Schwab, W.C., and Twichell, D.C., 1996, Analysis of the mobility of far reaching debris flows on the Mississippi Fan, Gulf of Mexico. In: K. Senneset. (ed.), Proceedings of the 7th International Symposium on Landslides. Balkema, Rotterdam, 555–560.
Locat, J. and Lee, H.J., 2002, Submarine landslides: advances and challenges. Canadian Geotechnical Journal, 39, 193–212.
Locat, J., Martin, F., Locat, P., Leroueil, S., Levesque, C., Konrad, J.-M., Urgeles, R., Canals, M., and Duchesne, M.J., 2003, Submarine mass movements in the upper Saguenay Fjord, (Québec, Canada), triggered by the 1663 earthquake. In: Locat, J., and Mienert, J. (eds.), The 1st International Symposium on Submarine Mass Movements and Their Consequences, Kluwer Academic Publishers, Dordrecht, 509–519.
Locat, J., Lee, H.J., Locat, P., and Imran, J., 2004, Numerical analysis of the mobility of the Palos Verdes debris avalanche, California, and its implication for the generation of tsunamis. Marine Geology, 203, 269–280.
Major, J.J. and Pierson, T.C., 1992, Debris flow rheology: experimental analysis of fine-grained slurries. Water Resources Research, 28, 841–857.
Malet, J.P., Remaître, A., Ancey, C., Locat, J., Meunier, M., and Maquaire, O., 2002, Caractérisation rhéologiques des coulées de débris et des laves torrentielles du bassin marneux de Barcelonnette (Alpes-de-Haute-Provence, France). Premiers résults. Rhéologie, 1, 17–25.
Malet, J.P., Remaître, A., Maquaire, O., Ancey, C., and Locat, J., 2003, Flow susceptibility of heterogeneous marly formations. Implications for torrent hazard control in the Barcelonnette basin (Alpes-de-Haute-Provence, France). In: Rickenmann, D. and Chen, C.L. (eds.), Proceedings of the 3rd International conference on Debris-Flow Hazards Mitigation, Millpress, Rotterdam, 351–362.
Mewis, J., 1979, Thixotropy — A general review. Journal of Non-Newtonian Fluid Mechanics, 6, 1–20.
Mienert, J., 2004, COSTA — continental slope stability: major aims and topics. Marine Geology, 213, 1–7.
Morgenstern, N.R., 1967, Submarine slumping and the initiation of turbidity currents. Marine Geotechnique, University of Illinois Press, Urbana, 189–210.
Mohrig, D., Elverhøi, A., and Parker, G., 1999, Experiments on the relative mobility of muddy subaqueous and subaerial debris flows, and their capacity to remobilize antecedent deposits. Marine Geology, 154, 117–127.
O’Brien, J.S. and Julien, P.Y., 1988, Laboratory analysis of mud flow properties. Journal of Hydraulic Engineering, ASCE, 114, 877–887.
Parsons, J., Whipple, K., and Simoni, A., 2001, Experimental study of the grain flow, fluid-mud transition in debris flow. Journal of Geology, 109, 427–447.
Perret, D., Locat, J., and Martignoni, P., 1996, Thixotropic behavior during shear of a fine-grained mud from Eastern Canada. Engineering Geology, 43, 31–44.
Phillips, C.J. and Davies, T.R.H., 1991, Determining rheological parameters of debris flow material. Geomorphology, 4, 101–110.
Remaître, A., Malet, J.P., Maquaire, O., Ancey, C., and Locat, J., 2005, Flow behavior and runout modelling of a complex debris flow in a clay-shale basin. Earth Surface Processes and Landforms, 30, 479–488.
St-Onge, G., Mulder, T., Piper, D.J.W., Hillaire-Marcel, C., and Stoner, J.S., 2004, Earthquake and flood-induced turbidites in the Saguenay Fjord (Québec): a Holocene paleoseismicity record. Quaternary Science Reviews, 23, 283–294.
Syvitski, J.P.M. and Hutton, E.W.H., 2003, Failure of marine deposits and their redistribution by sediment gravity flows. Pure and Applied Geophysics, 160, 2053–2069.
Tanner, R.I., 1985, Engineering rheology, Oxford University Press, Oxford, 451 p.
Tavenas, F., Chagnon, J.-Y., and La Rochelle, P., 1971, The Saint-Jean-Vianney landslide: observations and eyewitnesses accounts. Canadian Geotechnical Journal, 8, 463–478.
Terzaghi, K., 1956, Varieties of submarine slope failures. In: Proceedings of the 8th Texas Conference on Soil Mechanics and Foundation Engineering. (Reprinted in Teknisk Ukeblad, No. 43-44, 1957; Norwegian Geotechnical Institute Publication No. 25, 1957, 1–16; Harvard Soil Mechanics Series No. 52, 1957).
Torrance, J.K. and Pirnat, M., 1984, Effect of pH on the rheology of marine clay from the site of the South Nation river, Canada, landslide of 1971. Clays and Clay Minerals, 32, 384–390.
Tremblay, H., Duchesne, J., Locat, J., and Leroueil, S., 2002, Influence of the nature of organic compounds on fine soil stabilization with cement. Canadian Geotechnical Journal, 39, 535–546.
Ukraincik, V., 1980, Study on fresh concrete flow curves. Cement and Concrete Research, 10, 203–212.
Whorlow, R.W., 1980, Rheological techniques, Ellis Horwood Ltd., Chichester, England, 1–39.
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Jeong, S.W. Grain size dependent rheology on the mobility of debris flows. Geosci J 14, 359–369 (2010). https://doi.org/10.1007/s12303-010-0036-y
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DOI: https://doi.org/10.1007/s12303-010-0036-y