A coupled SPH-DEM-FEM model for fluid-particle-structure interaction and a case study of Wenjia gully debris flow impact estimation

C Liu, Z Yu, S Zhao - Landslides, 2021 - Springer
Debris flows are rapid gravity-driven unsteady flows of highly concentrated mixtures of water
and solid particle material, destroying numerous mountain building structures and traffic …
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[引用][C] A coupled SPH-DEM-FEM model for fluid-particle-structure interaction and a case study of Wenjia gully debris flow impact estimation

C Liu, Z Yu, S Zhao - Landslides, 2021 - ui.adsabs.harvard.edu
A coupled SPH-DEM-FEM model for fluid-particle-structure interaction and a case study of
Wenjia gully debris flow impact estimation - NASA/ADS Now on home page ads icon ads …

A coupled SPH-DEM-FEM model for fluid-particle-structure interaction and a case study of Wenjia gully debris flow impact estimation.

C Liu, Z Yu, S Zhao - Landslides, 2021 - search.ebscohost.com
Debris flows are rapid gravity-driven unsteady flows of highly concentrated mixtures of water
and solid particle material, destroying numerous mountain building structures and traffic …

A coupled SPH-DEM-FEM model for fluid-particle-structure interaction and a case study of Wenjia gully debris flow impact estimation.

C Liu, Z Yu, S Zhao - 2021 - cabidigitallibrary.org
Debris flows are rapid gravity-driven unsteady flows of highly concentrated mixtures of water
and solid particle material, destroying numerous mountain building structures and traffic …

A coupled SPH-DEM-FEM model for fluid-particle-structure interaction and a case study of Wenjia gully debris flow impact estimation

C Liu, Z Yu, Z Shichun - Landslides, 2021 - search.proquest.com
Debris flows are rapid gravity-driven unsteady flows of highly concentrated mixtures of water
and solid particle material, destroying numerous mountain building structures and traffic …