论文信息 - Modelling the behaviour of structured London Clay

Modelling the behaviour of structured London Clay

The paper presents a constitutive modelling of the London clay based on the detailed laboratory knowledge gathered about London clay structure (Hight et al, 2007; Gasparre et al, 2007; Gasparre & Coop, 2008). Modelling was performed using a structured kinematic hardening soil model based on Rouainia & Wood (2000). It was found that a smooth elasto-plastic transition was required to avoid a spurious stiffness degradation response. Consequently, the initial model was modified following a procedure similar to that suggested by Grammatikopoulou et al. (2006). Parameters associated with soil structure and state variables for each lithological sub-unit of the London clay are presented. A good prediction of stress-strain, strength and stiffness behaviour in the small strain range is obtained in spite of the complex behaviour observed in laboratory. The significantly different mechanical behaviours of the lithological sub-units, arising from differences in structure, are adequately reproduced.

Mohamed Rouainia | Marcos Arroyo Alvarez de Toledo | Antonio Gens Solé | Nubia Aurora González

[1] R. Jardine,et al. The influence of structure on the behaviour of London Clay , 2007 .

[2] J. Burland. On the compressibility and shear strength of natural clays , 1990 .

[3] Scott W. Sloan,et al. Aspects of finite element implementation of critical state models , 2000 .

[4] John Burland,et al. Unexpected tunnelling volume losses in the Westminster area, London , 2006 .

[5] Mohamed Rouainia,et al. A kinematic hardening constitutive model for natural clays with loss of structure , 2000 .

[6] A. Gasparre,et al. Advanced laboratory characterisation of London Clay , 2005 .

[7] Richard J. Jardine,et al. Characteristics of the London Clay from the Terminal 5 site at Heathrow Airport , 2007 .

[8] Lidija Zdravković,et al. General Formulation of Two Kinematic Hardening Constitutive Models with a Smooth Elastoplastic Transition , 2006 .

[9] D. W. Hight,et al. Predicting the stand-up time of temporary London Clay slopes at Terminal 5, Heathrow Airport , 2007 .

[10] Richard J. Jardine,et al. Shear strength anisotropy of natural London Clay , 2007 .

[11] M. D. Freitas,et al. A biostratigraphy for the London Clay in London , 2007 .

[12] Matthew Richard Coop,et al. Quantification of the effects of structure on the compression of a stiff clay , 2008 .

[13] Lidija Zdravković,et al. The influence of previous stress history and stress path direction on the surface settlement trough induced by tunnelling , 2008 .