Modelling the effects of pore-water chemistry on the behaviour of unsaturated clays
Due to their various applications in geo-environmental engineering, such as in landfill and nuclear waste disposals, the coupled chemo-hydro-mechanical analysis of expansive soils has gained more and more attention recently. These expansive soils are usually unsaturated under field conditions; there...
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EDP Sciences
2016-01-01
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| Series: | E3S Web of Conferences |
| Online Access: | http://dx.doi.org/10.1051/e3sconf/20160907006 |
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doaj-1445baa406af41f982bb326ed6ba08bc2021-03-02T10:18:33ZengEDP SciencesE3S Web of Conferences2267-12422016-01-0190700610.1051/e3sconf/20160907006e3sconf_eunsat2016_07006Modelling the effects of pore-water chemistry on the behaviour of unsaturated claysLei XiaoqinWong Henry0Fabbri Antonin1Limam Ali2Cheng Y. M.3Key Lab Mt Hazards & Earth Surface Proc, Inst Mt Hazards & Environm, CASUniversité de Lyon/ENTPE/LGCB-LTDS (UMR CNRS 5513)Université de Lyon/INSA Lyon/LGCIEDepartment of Civil and Environmental Engineering, Hong Kong Polytechnic UniversityDue to their various applications in geo-environmental engineering, such as in landfill and nuclear waste disposals, the coupled chemo-hydro-mechanical analysis of expansive soils has gained more and more attention recently. These expansive soils are usually unsaturated under field conditions; therefore the capillary effects need to be taken into account appropriately. For this purpose, based on a rigorous thermodynamic framework (Lei et al., 2014), the authors have extended the chemo-mechanical model of Loret el al. (2002) for saturated homoionic expansive soils to the unsaturated case (Lei, 2015). In this paper, this chemo-mechanical unsaturated model is adopted to simulate the chemo-elastic-plastic consolidation process of an unsaturated expansive soil layer. Logical tendencies of changes in the chemical, mechanical and hydraulic field quantities are obtained.http://dx.doi.org/10.1051/e3sconf/20160907006 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Lei Xiaoqin Wong Henry Fabbri Antonin Limam Ali Cheng Y. M. |
| spellingShingle |
Lei Xiaoqin Wong Henry Fabbri Antonin Limam Ali Cheng Y. M. Modelling the effects of pore-water chemistry on the behaviour of unsaturated clays E3S Web of Conferences |
| author_facet |
Lei Xiaoqin Wong Henry Fabbri Antonin Limam Ali Cheng Y. M. |
| author_sort |
Lei Xiaoqin |
| title |
Modelling the effects of pore-water chemistry on the behaviour of unsaturated clays |
| title_short |
Modelling the effects of pore-water chemistry on the behaviour of unsaturated clays |
| title_full |
Modelling the effects of pore-water chemistry on the behaviour of unsaturated clays |
| title_fullStr |
Modelling the effects of pore-water chemistry on the behaviour of unsaturated clays |
| title_full_unstemmed |
Modelling the effects of pore-water chemistry on the behaviour of unsaturated clays |
| title_sort |
modelling the effects of pore-water chemistry on the behaviour of unsaturated clays |
| publisher |
EDP Sciences |
| series |
E3S Web of Conferences |
| issn |
2267-1242 |
| publishDate |
2016-01-01 |
| description |
Due to their various applications in geo-environmental engineering, such as in landfill and nuclear waste disposals, the coupled chemo-hydro-mechanical analysis of expansive soils has gained more and more attention recently. These expansive soils are usually unsaturated under field conditions; therefore the capillary effects need to be taken into account appropriately. For this purpose, based on a rigorous thermodynamic framework (Lei et al., 2014), the authors have extended the chemo-mechanical model of Loret el al. (2002) for saturated homoionic expansive soils to the unsaturated case (Lei, 2015). In this paper, this chemo-mechanical unsaturated model is adopted to simulate the chemo-elastic-plastic consolidation process of an unsaturated expansive soil layer. Logical tendencies of changes in the chemical, mechanical and hydraulic field quantities are obtained. |
| url |
http://dx.doi.org/10.1051/e3sconf/20160907006 |
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1724237126873120768 |