Add to ORKG© Author(s) 2018. This work is distributed under the Creative Commons Attribution 3.0 License. Avalanches and subaqueous debris flows are two cases of a wide range of natural hazards that have been previously modeled with non-Newtonian fluid mechanics approximating the interplay of forces associated with gravity flows of granular and solid-liquid mixtures. The complex behaviors of such flows at unsteady flow initiation (i.e., destruction of structural jamming) and flow stalling (restructuralization) imply that the representative viscosity-stress relationships should include hysteresis: there is no reason to expect the timescale of microstructure destruction is the same as the timescale of restructuralization. The non-Newtonian Herschel-Bulk...
This paper proposes a computational approach to debris flow model. In recent years, the theoretical...
Debris flows contain inhomogeneous distributions of solids within a liquid. By considering a mixture...
Natural flows as mud, debris and hyper-concentrated flows are fast-flow phenomena typically characte...
© Author(s) 2018. This work is distributed under the Creative Commons Attribution 3.0 License. Avala...
Avalanches and subaqueous debris flows are two cases of a wide range of natural hazards that have b...
In this contribution, I present a historical account of debris flow modelling leading to the state o...
Some forms of mud flows and debris flows exhibit a non-Newtonian thixotropic behaviour, and this stu...
Abstract: A new mathematical model developed to predict behavior of debris flows and avalanches also...
AbstractSince 1989 models to route debris flows and avalanches for hazards mitigation have been cons...
Some forms of mud flows and debris flows exhibit a non-Newtonian thixotropic behaviour, and this stu...
International audienceThe main goal of these notes is to present several depth-averaged models with ...
This work presents the thermodynamically consistent development of a scaled, depth-integrated model ...
International audienceThis work focuses on the use of thin-layer models for simulating fast gravitat...
[1] This paper presents a new, generalized two-phase debris flow model that includes many essential ...
Debris flows and debris avalanches are complex, gravity-driven currents of rock, water and sediments...
This paper proposes a computational approach to debris flow model. In recent years, the theoretical...
Debris flows contain inhomogeneous distributions of solids within a liquid. By considering a mixture...
Natural flows as mud, debris and hyper-concentrated flows are fast-flow phenomena typically characte...
© Author(s) 2018. This work is distributed under the Creative Commons Attribution 3.0 License. Avala...
Avalanches and subaqueous debris flows are two cases of a wide range of natural hazards that have b...
In this contribution, I present a historical account of debris flow modelling leading to the state o...
Some forms of mud flows and debris flows exhibit a non-Newtonian thixotropic behaviour, and this stu...
Abstract: A new mathematical model developed to predict behavior of debris flows and avalanches also...
AbstractSince 1989 models to route debris flows and avalanches for hazards mitigation have been cons...
Some forms of mud flows and debris flows exhibit a non-Newtonian thixotropic behaviour, and this stu...
International audienceThe main goal of these notes is to present several depth-averaged models with ...
This work presents the thermodynamically consistent development of a scaled, depth-integrated model ...
International audienceThis work focuses on the use of thin-layer models for simulating fast gravitat...
[1] This paper presents a new, generalized two-phase debris flow model that includes many essential ...
Debris flows and debris avalanches are complex, gravity-driven currents of rock, water and sediments...
This paper proposes a computational approach to debris flow model. In recent years, the theoretical...
Debris flows contain inhomogeneous distributions of solids within a liquid. By considering a mixture...
Natural flows as mud, debris and hyper-concentrated flows are fast-flow phenomena typically characte...