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Rock Mechanics and Rock Engineering

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06.08.2016 | Original Paper

The Status of Water in Swelling Shales: An Insight from the Water Retention Properties of the Callovo-Oxfordian Claystone

verfasst von: Hamza Menaceur, Pierre Delage, Anh Minh Tang, Jean Talandier

Erschienen in: Rock Mechanics and Rock Engineering | Ausgabe 12/2016

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Abstract

The Callovo-Oxfordian (COx) claystone is considered in France as a possible host rock for the disposal of high-level long-lived radioactive waste at great depth. During the operational phase, the walls of the galleries and of the disposal cells will be successively subjected to desaturation induced by ventilation followed by resaturation once the galleries are closed. To better understand this phenomenon, a sound understanding of the water retention properties of the COx claystone is necessary. Following a previous study by the same group, this paper presents an investigation of microstructure changes in COx claystone under suction changes. Microstructure was investigated by means of mercury intrusion porosimetry tests on freeze-dried specimens previously submitted to various suctions. Along the drying path, the initial microstructure, characterised by a well-classified unimodal pore population around a mean diameter value of 32 nm, slightly changed with the same shape of the PSD curve and slightly moved towards smaller diameters (27–28 nm) at suctions of 150 and 331 MPa, respectively. The infra-porosity too small to be intruded by mercury (diameter smaller than 5.5 nm) reduced from 4.3 to 3.3 %. Oven drying reduced the mean diameter to 20 nm and the infra-porosity to 1 %. Wetting up to 9 MPa suction leads to saturation with no significant change in the PSD curve, whereas wetting at zero suction gave rise to the appearance of a large pore population resulting from the development of cracks with width of several micrometres, together with an enlargement of the initial pore population above the mean diameter. The concepts describing the step hydration of smectites (by the successive placement within the clay platelets along the smectite faces of 1, 2, 3 and 4 layers of water molecules with respect to the suction applied) appeared relevant to better understand the changes in microstructure of the COx claystone under suction changes. This also allowed to better define the status of water in claystones and shales containing smectite, with a distinction made between the water adsorbed within the clay platelets, and the free inter-platelet water involved in hydromechanical couplings through changes in pore pressure and water transfers.

Nächster Artikel Fracture Energy-Based Brittleness Index Development and Brittleness Quantification by Pre-peak Strength Parameters in Rock Uniaxial Compression

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Ahmed S, Lovell CW, Diamonds S (1974) Pore sizes and strength of compacted clay. ASCE J Geotech Eng 100(4):407–425

ANDRA (2005) Synthesis argile: evaluation of the feasibility of a geological repository in argillaceous formation. http://www.andra.fr/international/download/andra-international-en/document/editions/266va.pdf

Ben Rhaiem H, Pons CH, Tessier D (1985) Factors affecting the microstructure of smectites: role of cations and history of applied stresses. In: Schultz et al (eds) Proceedings of the international clay conference, Denver, The Clay Mineralogical Soc, pp 292–297

Bérend I, Cases JM, François M, Uriot JP, Michot LJ, Masion A, Thomas F (1995) Mechanism of adsorption and desorption of water vapour by homoionic montmorillonites: 2. The Li+, Na+, K+, Rb+ and Cs+ exchanged forms. Clays Clay Miner 43:324–336CrossRef

Bornert M, Vales F, Gharbi H, Nguyen Minh D (2010) Multiscale full-field strain measurements for micromechanical investigations of the hydromechanical behaviour of clayey rocks. Strain 46(1):33–46CrossRef

Boulin PF, Angulo-Jaramillo R, Daian JF, Talandier J, Berne P (2008) Pore gas connectivity analysis in Callovo-Oxfordian argillite. Appl Clay Sci 42(1–2):276–283CrossRef

Caillère S, Hénin S, Rautureau M (1982) Minéralogie des argiles. I. Structure et propriétés physico-chimiques, 2^ème édition, Masson, p 184

Cases JM, Berend I, Besson G, François M, Uriot JP, Thomas F, Poirier JP (1992) Mechanism of adsorption-desorption of water vapor by homoionic montmorillonite. 1. The sodium exchanged form. Langmuir 8:2730–2739CrossRef

Cases JM, Bérend I, François M, Uriot JP, Michot LJ, Thomas F (1997) Mechanism of adsorption and desorption of water vapour by homoionic montmorillonite: 3. The Mg²⁺, Ca²⁺, Sr²⁺ and Ba²⁺ exchanged forms. Clays Clay Miner 45:8–22CrossRef

Delage P, Lefebvre G (1984) Study of the structure of a sensitive Champlain clay and of its evolution during consolidation. Can Geotech J 21(1):21–35CrossRef

Delage P, Pellerin FM (1984) Influence de la lyophilisation sur la structure d’une argile sensible du Quebec. Clay Miner 19(2):151–160CrossRef

Delage P, Howat M, Cui YJ (1998) The relationship between suction and swelling properties in a heavily compacted unsaturated clay. Eng Geol 50(1–2):31–48CrossRef

Delage P, Marcial D, Cui YJ, Ruiz X (2006) Ageing effects in a compacted bentonite: a microstructure approach. Géotechnique 56(5):291–304CrossRef

Delage P, Menaceur H, Tang AM, Talandier J (2014) Suction effects in deep Callovo-Oxfordian claystone specimen. Géotechn Lett 3(2):84–88

Diamond S (1970) Pore size distribution in clays. Clays Clay Miner 18:7–23CrossRef

Ferrage E, Lanson B, Sakharov BA, Drits VA (2005) Investigation of smectite hydration properties by modeling experimental X-ray diffraction patterns: part I. Montmorillonite hydration properties. Am Mineral 90:1358–1374CrossRef

Ferrage E, Kirk CA, Cressey G, Cuadros J (2007) Dehydration of Ca-montmorillonite at the crystal scale. Part I: structure evolution. Am Mineral 92:994–1006CrossRef

Ferrari A, Favero V, Marschall P, Laloui L (2014) Experimental analysis of the water retention behaviour of shales. Int J Rock Mech Min Sci 72:61–70

Gaucher G, Robelin C, Matray JM, Négrel G, Gros Y, Heitz JF, Vinsot A, Rebours H, Cassagnabère Bouchet A (2004) ANDRA underground research laboratory: interpretation of the mineralogical and geochemical data acquired in the Callovian-Oxfordian formation by investigative drilling. Phys Chem Earth 29:55–77CrossRef

Gillott JE (1973) Methods of sample preparation for microstructural analysis of soil. In: Rutherford GK (ed) Proceedings of 4th international working meeting on soil micromorphology, Kingston, pp 143–164

Laird DA, Shang C, Thompson ML (1995) Hysteresis in crystalline swelling of smectites. J Colloid Interface Sci 171:240–245CrossRef

Lebon P, Mouroux B (1999) Knowledge of the three French underground laboratory sites. Eng Geol 52:251–256CrossRef

Méring J, Glaeser R (1954) Sur le rôle de la valence des cations échangeables dans la montmorillonite. Bulletin de la Société Francaise de Minéralogie et Cristallographie 77:519–530

Montes-Hernandez G, Duplay J, Martinez L, Escoffier S, Rousset D (2004) Structural modifications of Callovo-Oxfordian argillite under hydration/dehydration conditions. Appl Clay Sci 25:187–194CrossRef

Mooney RW, Keenan AC, Wood LA (1952) Adsorption of water vapor by montmorillonite. II. Effect of exchangeable ions and lattice swelling as measured from X-ray diffraction. J Am Chem Soc 74:1371–1374CrossRef

Norrish K (1954) The swelling of montmorillonite. Discuss Faraday Soc 18:120–133CrossRef

Pham QT, Vales F, Malinsky L, Nguyen Minh D, Gharbi H (2007) Effects of desaturation-resaturation on mudstone. Phys Chem Earth 32:646–655CrossRef

Saiyouri N, Hicher PY, Tessier D (2000) Microstructural approach and transfer water modelling in highly compacted unsaturated swelling clays. Mech Cohes Frict Mater 5:41–60CrossRef

Saiyouri N, Tessier D, Hicher PY (2004) Experimental study of swelling in unsaturated compacted clays. Clay Miner 39:469–479CrossRef

Sammartino S, Bouchet A, Prêt D, Parneix JC, Tevissen E (2003) Spatial distribution of porosity and minerals in clay rocks from the Callovo-Oxfordian formation (Meuse/Haute-Marne, Eastern France)—implications on ionics species diffusion and rock sorption capability. Appl Clay Sci 23(1–4):157–166CrossRef

Sridharan A, Altschaeffl AG, Diamond S (1971) Pore size distribution studies. J Soil Mech Found Div ASCE 97(5):771–787

Tovey NK, Wong KY (1973) The preparation of soils and other geological materials for the scanning electron microscope. In: Proceedings of the international symposium on soil structure, Gothenburg, Sweden, pp 176–183

Valès F (2008) Modes de déformation et d’endommagement de roches argileuses profondes sous sollicitations hydro-mécaniques. Ph.D. thesis, Ecole Polytechnique, Paris

Wan M, Delage P, Tang AM, Talandier J (2013) Water retention properties of the Callovo-Oxfordian claystone. Int J Rock Mech Min Sci 64:96–104

Wang LL, Bornert M, Héripré E, Yang DS, Chanchole S (2014) Irreversible deformation and damage in argillaceous rocks induced by wetting/drying. J Appl Geophys 107:108–118CrossRef

Wang LL, Bornert M, Héripré E, Chanchole S, Pouya A, Halphen B (2015) Microscale insight into the influence of humidity on the mechanical behavior of mudstones. J Geophys Res Solid Earth 120:3173–3186. doi:10.1002/2015JB011953 CrossRef

Yven B, Sammartino S, Geroud Y, Homand F, Villieras F (2007) Mineralogy texture and porosity of Callovo-Oxfordian claystones of the Meuse/Haute-Marne region (eastern Paris Basin). Mémoires de la Société géologique de France 178:73–90, ISSN 0249-7549

Titel: The Status of Water in Swelling Shales: An Insight from the Water Retention Properties of the Callovo-Oxfordian Claystone
verfasst von: Hamza Menaceur
Pierre Delage
Anh Minh Tang
Jean Talandier
Publikationsdatum: 06.08.2016
Verlag: Springer Vienna
Erschienen in: Rock Mechanics and Rock Engineering / Ausgabe 12/2016
Print ISSN: 0723-2632
Elektronische ISSN: 1434-453X
DOI: https://doi.org/10.1007/s00603-016-1065-2

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