- Title
- Discrete element modelling of a soil-mesh interaction problem
- Creator
- Pol, A.; Gabrieli, F.; Thoeni, K.; Mazzon, N.
- Relation
- EUROCK 2018 International European Rock Mechanics Symposium (ISRM 2018) . Geomechanics and Geodynamics of Rock Masses: Selected Papers from the 2018 European Rock Mechanics Symposium (Saint Petersburg, Russia 22-26 May, 2018) p. 877-882
- Relation
- https://www.crcpress.com/Geomechanics-and-Geodynamics-of-Rock-Masses-Proceedings-of-the-2018-European/Litvinenko/p/book/9781138616455
- Publisher
- CRC Press
- Resource Type
- conference paper
- Date
- 2018
- Description
- The design strategies of metallic cortical meshes used for slope protection are mostly linked to the application of empirical and semi-empirical methods. This limitation is due to the difficulties in representing such complex large-deformation rock-soil-structure interaction problems: the intrinsic complexities of these structures is combined with the difficulties in describing the geometry both the mechanical and physical properties of the rock and soil behind. The Discrete Element Method proved their effectiveness in describing the non-linear and large strain behaviour of the soil, and recently also the mechanical response of steel wire meshes which are represented as regular patterns of remote interactions between nodes. In this work, a discrete element model of a double-twisted hexagonal wire mesh is calibrated on the base of experimental tensile tests on two wire types. The validation of the model is performed using the results of a standard punch test. The same mesh is then loaded by a granular layer constituted by discrete element particles mimicking the soil earth pressure. A comparison between the two load types is discussed with reference to the force-displacement curve and the distribution of the tensile stresses on the mesh panel. The effect of the boundary conditions is also analysed.
- Subject
- discrete element method; soil-structure interaction; wire meshes; slope protection; hazard mitigation; punch tests; double-twisted hexagonal wire mesh
- Identifier
- http://hdl.handle.net/1959.13/1404360
- Identifier
- uon:35324
- Identifier
- ISBN:9781138616455
- Language
- eng
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