Stresses Around a Wellbore Due to Internal Pressure and Unequal Principal Geostatic Stresses

Galle, E.M.; Wilhoit, James C.

doi:10.2118/168-pa

Cited by 20 publications

(5 citation statements)

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“…Elastic stress data from ... model differed only slightly in magnitude from the stresses indicated by Galle and Wilhoit (1962). The shape of the applied loading curve is almost exactly the same as that obtained from the acrylic model, except that the percentage concentration of the applied stress ahead of the ad-vancing tunnel is slightly lower and this region of stress concentration is not as extensive.…”

Section: Granite Modelsupporting

confidence: 51%

“…The directions of the principal stress changes r~mained essentially fixed (table 7; figs. 16A, 1 n Stresses estimated from photoelastic studies by Galle and Wilhoit (1962), in a smaller but similarly loaded plastic block ahead of a 3.18-cm-(1.25 in.) diameter bore, are in good agreement with the stresses monitored by the probe for a 1.50-tunnel-diameter interval between the probe and the tunnel face ( fig.…”

Section: Acrylic Modelmentioning

confidence: 99%

“…According to elastic theory and the experiments of Galle and Wilhoit (1962), the stress concentration ahead of an advancing tunnel in an elastic material should be confined to a zone within, at most, 2 diameters ahead of the advancing tunnel. It can be seen in figures l6B, I9B, and 22B that the experimental data correspond reasonably well to those obtained by the photoelastic techniques employed by Galle and Wilhoit for approximately 1 diameter ahead of the model-tunnel face( fig.…”

Section: Stresses Preceding the Advancing Tunnelmentioning

confidence: 99%

“…Our field evidence agrees approximately with an onset of stress increase at about 2-5 tunnel diameters ahead of a modeltunnel face. The model used by Galle and Wilhoit (1962) may have been of too limited an extent to show this stress peak because their models extended only 2.25 diameters ahead of their model-tunnel face ( fig. 24).…”

Section: Stresses Preceding the Advancing Tunnelmentioning

confidence: 99%

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The relation of geology to stress changes caused by underground excavation in crystalline rocks at Idaho Springs, Colorado

Lee¹,

Abel²,

Nichols³

1976

Professional Paper

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6 diameters ahead of the crosscut, 2 diameters ahead of the face in acrylic, 1.25 diameters in concrete, and 1 diameter in granite. These subsidiary stress peaks are not explained by available theory. Such rock-mass behavior, if not anticipated, might result, especially in a complex (multiple-opening) underground operation, in damage of support systems owing to overloading. Laboratory and field data suggest that the stress field may have both residual (locked-in) and tectonic or gravity components. The release of residual strain energy is principally brought about by excavation through excavation-induced fault movements. Disturbances of the stress field caused by the intermittent excavation in the mine in part were time dependent, with stabilization requiring weeks to months.

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Section: Granite Modelsupporting

confidence: 51%

Section: Acrylic Modelmentioning

confidence: 99%

Section: Stresses Preceding the Advancing Tunnelmentioning

confidence: 99%

Section: Stresses Preceding the Advancing Tunnelmentioning

confidence: 99%

See 2 more Smart Citations

The relation of geology to stress changes caused by underground excavation in crystalline rocks at Idaho Springs, Colorado

Lee¹,

Abel²,

Nichols³

1976

Professional Paper

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“…In particular, effects from removal of deviatoric and total stresses, termed`block sampling' by Baligh et al (1987), will lead to some disturbance. Also, shear distortion as a result of base heave may cause damage as the borehole is made (Galle & Wilhoit, 1962;Lefebvre & Poulin, 1979). A number of investigators have shown that sampling disturbance of soft clays leads to a reduction in mean effective stress (Hight, 1986;Clayton et al, 1992).…”

Section: Bothkennar Claymentioning

confidence: 99%

Stiffness of geomaterials at very small strains

2001

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Experiments have been conducted in the triaxial apparatus to observe the behaviour at very small strains of three widely different natural materials: Bothkennar clay, London clay, and a high-porosity Chalk. Local strain measurements made using LVDTs were calibrated by a Fabry±Pe Ârot laser interferometer. A displacement accuracy as high as 60 X 027 ìm was obtained, leading to an axial strain accuracy of the order of 610 À4 %. Special care was taken to ensure that the rates of creep reduced to acceptably small levels before loading commenced. At very small strain levels the observed stress±strain behaviour appeared to be linear for all three materials. The extent of this linear behaviour was similar (0´002±0´003%) for all three materials, despite the maximum stiffness (E max ) ranging over two orders of magnitude. The initial in¯uence of stress change and strain level on secant modulus was relatively small, with stiffnesses at 0´01% strain being of the order of 80±95% of E max . Effects of loading path were observed, giving different rates of stiffness degradation as a function of strain, but recent stress history effects did not occur even though stress excursions went well beyond the range normally thought to induce plastic strains. Stiffnesses measured in the triaxial apparatus at very small strain levels were found to be similar to those obtained using ®eld geophysical techniques, despite assumptions of isotropy, and the effects of sampling. The implications of these observations for practice are discussed.

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Relief Methods

Amadei¹,

Stephansson²

1997

Rock Stress and Its Measurement

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Stresses Around a Wellbore Due to Internal Pressure and Unequal Principal Geostatic Stresses

Cited by 20 publications

References 0 publications

The relation of geology to stress changes caused by underground excavation in crystalline rocks at Idaho Springs, Colorado

The relation of geology to stress changes caused by underground excavation in crystalline rocks at Idaho Springs, Colorado

Stiffness of geomaterials at very small strains

Relief Methods

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