论文信息 - Expansive bentonite-sand mixtures in cyclic controlled-suction drying and wetting

Expansive bentonite-sand mixtures in cyclic controlled-suction drying and wetting

Expansive clay buffers in radioactive waste disposal designs experience cyclic drying and wetting paths during different stages of their design life. Clayey soils subjected to these processes develop swelling and shrinkage deformations, which give rise to the accumulation of compression or expansion strains during suction cycles. Experimental studies were undertaken using oedometer tests on an artificially prepared bentonite–sand mixture (80% bentonite by dry mass). In order to study these processes and to identify the most important features controlling soil behaviour, several wetting–drying cycles with suctions ranging between 130 and 4 MPa were applied using vapour equilibrium technique and covering a wide range of overconsolidation ratios (OCR). The tested samples showed cumulative shrinkage strains along the successive cycles, which became more significant at increasing vertical net stresses (low OCR values). However, no accumulation of expansion strains was detected at elevated OCR values. Test results were interpreted and predicted within the context of an elastoplastic model proposed by Alonso et al., 1999, [Alonso, E.E., Vaunat, J., Gens, A., (1999). Modelling the mechanical behaviour of expansive clays. Engineering Geology, 54, 173–183.] which takes into account the accumulation of strains. A good correspondence between measured soil response and model predictions was observed. The paper also presents the methodology to derive the constitutive parameters.

[1] Mihail Popescu,et al. Behaviour of Expansive Soils with a Crumb Structure , 1980 .

[2] D. Fredlund,et al. Soil Mechanics for Unsaturated Soils , 1993 .

[3] Robert W. Day,et al. Swell‐Shrink Behavior of Compacted Clay , 1994 .

[4] Ae Dif,et al. Expansive Soils under Cyclic Drying and Wetting , 1991 .

[5] Antonio Gens,et al. Modelling the mechanical behaviour of expansive clays , 1999 .

[6] Antonio Gens,et al. A framework for the behaviour of unsaturated expansive clays , 1992 .

[7] M V Villar. FIRST RESULTS OF SUCTION CONTROLLED OEDOMETER TESTS IN HIGHLY EXPANSIVE MONTMORILLONITE , 1995 .

[8] Azm S. Al-Homoud,et al. Cyclic Swelling Behavior of Clays , 1995 .

[9] Antonio Gens,et al. A constitutive model for partially saturated soils , 1990 .

[10] A. Malkawi,et al. Swelling-shrinkage behavior of natural expansive clays , 1996 .

[11] F. Huertas,et al. Project FEBEX-Full-scale Engineered Barriers Experiment for a deep geological repository for high-level radioactive waste in crystalline host rock , 2002 .

[12] John A. Woodburn,et al. The Transistor Psychrometer: A New Instrument for Measuring Soil Suction , 1993 .

[13] S. F. Obermeier,et al. Evaluation of laboratory techniques for measurement of swell potential of clays : 7F, 14R. PROC. WORKSHOP ON EXPANS. CLAYS AND SHALES ETC., DENVER, DEC. 1972. BULL. ASS. ENGNG GEOL. V11, N4, 1974. P293–314 , 1973 .