Sheeting Joints: Characterisation, Shear Strength and Engineering

Hencher, Steve; Lee, S. G.; Carter, T. G.; Richards, L. R.

doi:10.1007/s00603-010-0100-y

Cited by 76 publications

(37 citation statements)

References 33 publications

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“…Targetlike ores can develop once the very late exhumation of the peridotite massif and its erosion has induced mechanical decompression and subsequent jointing. The bulk permeability of the first hundreds of meters below the surface is thus increased by this process (Hencher et al 2011). The high permeability of the saprocks allows rapid vertical transfer and short residence time for the incoming waters.…”

Section: Discussionmentioning

confidence: 99%

Nickel dispersion and enrichment at the bottom of the regolith: formation of pimelite target-like ores in rock block joints (Koniambo Ni deposit, New Caledonia)

et al. 2015

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International audienceIn New Caledonian Ni deposits, the richest Ni silicate ores occur in fractures within the bedrock and saprolite, generally several tens of meters to hundred meters below the present-day surface. Fracture-related Ni silicate ore accounts for high Ni grades, at least a few weight percent above the average exploited grade (2.5 %). These Ni-rich veins are affected by active dissolution-precipitation processes at the level of the water table. Ni in solution is precipitated as silicates in thin layer cementing joints. This mineralization is characterized by chemical and mineralogical concentric zoning with an outer green rim around an inner white zone composed, from the edge to the centre of the block, (i) a highly oxidized and altered zone, (ii) a green pure Ni-rich pimelite zone, (iii) a zone (limited to a few centimetres) with a mixture of Ni-poor kerolite and Ni-rich pimelite and intermediate colours and (iv) a large white Mg-kerolite mineralization zone. This study proposes that the concentric zonation results from evapo-precipitation process related to alternate periods of hydration and drying, induced by water table movements. This extensive dispersion of Ni in concentrically zoned ores can partly explain the rather monotonous Ni grade of the bulk exploitation at the base of the regolith with values between 2 and 3 wt%

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Section: Discussionmentioning

confidence: 99%

Nickel dispersion and enrichment at the bottom of the regolith: formation of pimelite target-like ores in rock block joints (Koniambo Ni deposit, New Caledonia)

et al. 2015

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“…41-42) explains that the higher the value of Poisson's ratio for a given material, the higher the gravitationally-induced horizontal stresses for any given vertical stress. The density of pre-existing joints influences the development of sheeting joints because the pre-existing joints accommodate the relief of stresses (Hencher et al, 2011), as such sheeting joints are rarely found in intenselyjointed granite for example (Twidale, 1973). Further, at individual sites within uniform rock masses, the development of sheeting joints will be spatially variable because of variation in stress redistribution.…”

Section: Rock Stress Redistributions and Jointingmentioning

confidence: 99%

“…While several mechanisms have been proposed to explain the formation of these joints, including the mechanical effects of fire, thermal cycles, vegetation and chemical weathering, it has generally been accepted that they are generated by gravitational stresses and usually triggered by unloading (Brunner and Scheidegger, 1973). (Hencher et al, 2011). The high horizontal to vertical stress ratios, σ h /σ v , and the development of joints parallel to the land surface indicate that failure may have been induced by compressive stresses (i.e.…”

Section: Rock Stress Redistributions and Jointingmentioning

confidence: 99%

“…Stress-redistribution varies from site to site because of differences in: the erosional history of a site; a site's ability to sustain elastic stresses during erosion; the regional tectonic regime and locked-in stresses; the orientation of surfaces relative to these; and differences in rock mass properties, particularly the elastic modulus and strength, anisotropy, fracture density, rock density and moisture content (Wyrwoll, 1977;Nichols, 1980;Selby, 1993;Augustinus, 1995a;Leith et al, 2010a;Hencher et al, 2011). For example, Selby (1993, pp.…”

Section: Rock Stress Redistributions and Jointingmentioning

confidence: 99%

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Paraglacial rock-slope stability

2012

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“…The failure was the final stage of a progressive landslide that had been developing over many years involving dilation during rainstorms, the extension of proto-joints and development of new fractures and the intermediate washing in of sediments to apertures (Hencher et al 2011). In the failed area, major waves on the sheeting joints had a wavelength of about 2 m and amplitude of about 0.15 m. Following the failure, roughness was measured using compass clinometers on 80 and 420 mm plates using a 0.1 m grid pattern in areas where the slope had failed and in areas that had not failed.…”

Section: Roughness and Scale Effectsmentioning

confidence: 98%

Assessing the Shear Strength of Rock Discontinuities at Laboratory and Field Scales

Hencher

Richards²

2014

Rock Mech Rock Eng

Self Cite

114

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This paper sets out an approach to assessing shear strength of rock joints at project scale based on measurement and analysis rather than empiricism. The role of direct shear testing in this process is discussed in detail and the need for dilation measurement and correction emphasised. Dilation-corrected basic friction angles are presented for various rock types. The characterisation of first and second order roughness features and their contribution to shear strength at project scale are discussed with reference to possible scale effects. The paper is illustrated by a case example of a spillway slope for a dam in the Himalayas.

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Sheeting Joints: Characterisation, Shear Strength and Engineering

Cited by 76 publications

References 33 publications

Nickel dispersion and enrichment at the bottom of the regolith: formation of pimelite target-like ores in rock block joints (Koniambo Ni deposit, New Caledonia)

Nickel dispersion and enrichment at the bottom of the regolith: formation of pimelite target-like ores in rock block joints (Koniambo Ni deposit, New Caledonia)

Paraglacial rock-slope stability

Assessing the Shear Strength of Rock Discontinuities at Laboratory and Field Scales

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