T. I. Longworth scite author profile

A study of a 29 m deep brickpit which was progressively excavated in overconsolidated Oxford Clay has shown that the surrounding ground within a distance of 60 m was affected by movement. The release of in situ stress caused inward displacement of the sides of up to 200 mm and settlement of about 100 mm. The heave of the base of the pit amounted to some 100 mm. The Oxford Clay moved inward as a block, displacement at the base being almost the same as at ground level. Overthrusting relative to lower beds occurred by sliding on a shear band which developed by progressive failure as the maximum shear stress exceeded the peak shear strength along bedding planes near pit base level. Horizontal extension was concentrated in the ground overlying an ‘end region’ of the shear band, 20–30 m from the face, where, following initiation of displacement, the shear strength dropped from peak to residual causing a rapid reduction in horizontal stress. The observed behaviour is in broad agreement with the mechanism of progressive failure discussed by Bjerrum (1967) and recently published theoretical work on initiation and propagation of shear bands (Palmer and Rice, 1973). Details are given of the precise survey techniques and instrumentation installed to measure the ground movements. The geotechnical properties and structural fabric of the Oxford Clay are described and their influence on ground movement discussed. L'étude d'un puits maçonné en briques d'une profondeur de 29 m qui a été creusé progressivement dans de l'argile d'Oxford surconsolidée a montré que le terrain environnant dans un rayon de 60 m fut affecté par le mouvement. Le relâchement des contraintes in situ causa un déplacement interne des côtés de 200 mm environ et un tassement de l'ordre de 100 mm. Le soulèvement de la base du puits a atteint une valeur de 100 mm. L'argile d'oxford se déplaça intérieurement en bloc, le déplacement à la base étant presque le même qu'au niveau du sol. Le surenfoncement relatif par rapport aux couches plus basses se produisit par glissement sur une bande de cisaillement qui se développa par rupture progressive lorsque la contrainte de cisaillement maximale dépassa la résistance de pic à la rupture au cisaillement le long de plans de stratification près du niveau du fond du puits. L'extension horizontale était concentrée dans le sol surmontant une ‘région d'extrémité’ de la bande de cisaillement. 20 à 30 m de la face où, suivant l'initiation de déplacement, la contrainte de cisaillement tomba de la valeur de pic à la valeur résiduelle causant une réduction rapide des contraintes horizontales. Le comportement observé est en plein accord avec le mécanisme de rupture progressive proposé par Bjerrum (1967) et avec un ouvrage théorique publié récemment sur l'initiation et la propagation de bandes de cisaillement (Palmer et Rice, 1973) Des détails sont donnés sur les techniques précises de nivellement et l'instrumentation, installées pour mesurer les mouvements du sol. Les propriétés géotechniques et la structure de l'argile d'Oxford sont décrites et leur influence sur le mouvement du sol est examinée.

show abstract

Thaumasite field trial at Shipston on Stour: three-year preliminary assessment of buried concretes

Crammond

Collett

Longworth

2003

Cement and Concrete Composites

View full text Add to dashboard Cite

Contribution of construction activity to aggressive ground conditions causing the thaumasite form of sulfate attack to concrete in pyritic ground

Longworth

2003

Cement and Concrete Composites

View full text Add to dashboard Cite

Hydraulic uplift of the base of a deep excavation in Oxford Clay

Moore

Longworth

1979

Géotechnique

View full text Add to dashboard Cite

A local hydraulic uplift failure has been observed in the base of a 29 m deep, large brick pit excavation in Oxford Clay. The failure was preceded by at least a 150 mm rise of the pit base as water accumulated under pressure beneath impermeable clay surface layers. Hydrogeological studies have indicated that the source of water was a thin underlying bed of limestone. Rupture of the capping clay finally resulted in the rapid release of about 7OGU m3 of water which flooded part of the pit and caused an immediate settlement of up to 100 mm of the pit base. Precise survey observations begun in the year before the failure have provided a unique record of the rate and extent of the uplift and settlement movements.

show abstract

Discussion: A study of ground movement and progressive failure caused by a deep excavation in Oxford Clay

Burland¹,

Longworth²,

Moore³

1978

Géotechnique

View full text Add to dashboard Cite

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

T. I. Longworth

A study of ground movement and progressive failure caused by a deep excavation in Oxford Clay

Thaumasite field trial at Shipston on Stour: three-year preliminary assessment of buried concretes

Contribution of construction activity to aggressive ground conditions causing the thaumasite form of sulfate attack to concrete in pyritic ground

Hydraulic uplift of the base of a deep excavation in Oxford Clay

Discussion: A study of ground movement and progressive failure caused by a deep excavation in Oxford Clay

Contact Info

Product

Resources

About