Description |
1 online resource |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
Series |
Civil engineering and geomechanics |
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Civil engineering and geomechanics.
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Bibliography |
Includes bibliographical references and index. |
Note |
Vendor-supplied metadata. |
Summary |
Advances in Multi-Physics and Multi-Scale Couplings in Geo-Environmental Mechanics reunites some of the most recent work from the French research group MeGe GDR (National Research Group on Multiscale and Multiphysics Couplings in Geo-Environmental Mechanics) on the theme of multi-scale and multi-physics modeling of geomaterials, with a special focus on micromechanical aspects. Its offers readers a glimpse into the current state of scientific knowledge in the field, together with the most up-to-date tools and methods of analysis available. Each chapter represents a study with a different viewpoint, alternating between phenomenological/micro-mechanically enriched and purely micromechanical approaches. Throughout the book, contributing authors will highlight advances in geomaterials modeling, while also pointing out practical implications for engineers. Topics discussed include multi-scale modeling of cohesive-less geomaterials, including multi-physical processes, but also the effects of particle breakage, large deformations on the response of the material at the specimen scale and concrete materials, together with clays as cohesive geomaterials. The book concludes by looking at some engineering problems involving larger scales. |
Contents |
9 State of the Art on the Likelihood of Internal Erosion of Dams and Levees by Means of Testing / Luc Sibille -- 9.1. Introduction -- 9.2. Experimental findings on interface erosion -- 9.2.1. Introduction -- 9.2.2. Comparative analysis of interface erosion tests -- 9.2.3. Interpretation by energy method -- 9.2.4. Statistical analysis -- 9.3. Experimental findings on suffusion -- 9.3.1. mechanics-based understanding of suffusion -- 9.3.2. General principle of laboratory suffusion test apparatus -- 9.3.3. Parametric studies -- 9.3.4. Characterizing suffusion susceptibility -- 9.4. description of internal erosion based on flow power -- 9.4.1. Detachment of solid particles / initiation of erosion -- 9.4.2. Description of internal erosion including a filtration step -- 9.5. Numerical approaches to describing internal erosion effects in soils -- 9.5.1. DEM approach -- 9.5.2. Micromechanical approach -- 9.5.3. Comparison between numerical results from DEM and micromechanical model -- 9.5.4. Conclusion -- 9.6. General conclusion -- 9.7. Bibliography -- ch. 10 Mechanical Stability of River Banks Submitted to Fluctuations of the Water Level / Soksan Chun -- 10.1. Introduction -- 10.2. Background and general methods of analysis -- 10.2.1. Flow regimes and fluvial morphology -- 10.2.2. Seepage analysis -- 10.2.3. Stability analysis -- 10.3. built-in model for bank stability analysis -- 10.3.1. Groundwater seepage model -- 10.3.2. Erosion model -- 10.3.3. Mass stability model -- 10.3.4. Validation of MEStab code by comparison to finite element results -- 10.3.5. Coupling erosion with seepage and mass slide -- 10.4. Application to the Lower Mekong Basin -- 10.4.1. Seasonal River Flow Regime -- 10.4.2. Observed changes in the Mekong River morphology -- 10.4.3. Case study of the stability of a river bank at Kampong Cham -- 10.5. Conclusions and perspectives -- 10.6. Bibliography. |
Subject |
Environmental geotechnology.
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Multiscale modeling.
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Physics.
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Physics |
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Géotechnique de l'environnement.
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Analyse multiéchelle.
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Physique.
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physics.
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TECHNOLOGY & ENGINEERING -- Environmental -- General.
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Environmental geotechnology
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Multiscale modeling
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Physics
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Added Author |
Nicot, François, editor.
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Millet, Olivier, editor.
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Other Form: |
Print version: 1785482785 9781785482786 (OCoLC)1004091482 |
ISBN |
9780081025963 (electronic bk.) |
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0081025963 (electronic bk.) |
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9781785482786 |
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1785482785 |
Standard No. |
AU@ 000061498026 |
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AU@ 000065066854 |
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