Environmental Engineering Reference
In-Depth Information
[CON 00] CONTRERAS S. M., DAVIES T. R. H., “Coarse-grained debris-flows: hysteresis
and time-dependent rheology”. J. Hydraul. Eng. , vol. 126, p. 938-941, 2000.
[COU 94] COUSSOT P., “Steady, laminar, flow of concentrated mud dispensions in open
channel”. J. Hydraul. Res. , vol. 32, p. 535-559, 1994.
[COU 97] COUSSOT P., Mudflow Rheology and Dynamics . Rotterdam, Balkema, 1997.
[COU 98] COUSSOT P., LAIGLE D., ARRATANO M., DEGANUTTI A., MARCHI L.,
“Direct determination of rheological characteristics of debris flow”. J. Hydraul. Eng ., vol.
124, p. 865-868, 1998.
[COU 02] COUSSOT P., NGUYEN Q. D., HUYNH H. T., BONN D., “Viscosity bifurcation
in thixotropic, yielding fluids”. J. Rheol. , vol. 46, p. 573-590, 2002.
[COU 95] COUSSOT P., PIAU J. M., “A large-scale field coaxial cylinder rheometer for the
study of the rheology of natural coarse suspensions”. J. Rheol. , vol. 39, p. 105-124, 1995.
[COU 96a] COUSSOT P., PROUST S., “Slow, unconfined spreading of a mudflow”.
J. Geophys. Res. vol. B101, p. 25217-25229, 1996.
[COU 96b] COUSSOT P., PROUST S., ANCEY C., “Rheological interpretation of deposits of
yield stress fluids”. J. Non-Newtonian Fluid Mech. , vol. 66, p. 55-70, 1996.
[COU 03] COUSSOT P., RAYNAUD J. S., ANCEY C., “Combined MRI-rheometry
determination of the behavior of mud suspensions”, in C.-L. CHEN and D. RICKENMANN
(eds.), Debris Flow Mechanics and Mitigation Conference , p. 291-301. Davos, Mills Press,
2003.
[DAV 86] DAVIES T. R. H., “Large debris flow: a macro-viscous phenomenon”. Acta Mech. ,
vol. 63, p. 161-178, 1986.
[DAV 02] DAVIS R. O., SEVLADURAI A. P. S., Plasticity and Geomechanics . Cambridge,
Cambridge University Press, 2002.
[DEN 01] DENLINGER R. P., IVERSON R. M., “Flow of variably fluidized granular
masses across three-dimensional terrain. 2. Numerical predictions and experimental tests”.
J. Geophys. Res. , vol. 106, p. 553-566, 2001.
[EGA 01] EGASHIRA S., ITOH T., TAKEUSHI H., “Transition mechanics of debris flows
over rigid bed to over erodible bed”. Phys. Chem. Earth B , vol. 26, p. 169-174, 2001.
[FÉL 04] FÉLIX G., THOMAS N., “Relation between dry granular flow regimes and
morphology of deposits: formation of levées in pyroclastic deposits”. Earth Planet. Sci.
Lett. , vol. 221, p. 197-213, 2004.
[GRA 94] GRATTON J., VIGO C., “Self-similar gravity currents with variable inflow
revisited: plane currents”. J. Fluid Mech. , vol. 258, p. 77-104, 1994.
[GRA 98] GRAY J. M. N. T., WIELAND M., HUTTER K., “Gravity-driven free surface
flow of granular avalanches over complex basal topography”. Proc. R. Soc. London ser.
A , vol. 455, p. 1841-1874, 1998.
[HOG 06] HOGG A. J., “Lock-release gravity currents and dam-break flows”. J. Fluid Mech. ,
vol. 569, p. 61-87, 2006.
Search WWH ::




Custom Search