bearing capacity of rocksdocshare02.docshare.tips/files/23315/233154399.pdf · 2017. 1. 15. · d =...
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Bearing Capacity of RocksIntact Rock MassIntact Rock MassA rock mass with joint spacing greater than 4 to 5 times the width of the footing. Local and General shear failure is associated to brittleGeneral shear failure is associated to brittle and ductile rock respectively.
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Jointed Rock MassJointed Rock Mass
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General Shear Failure
Local Shear FailureLocal Shear Failure
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• Compressive Failure:A h t i d b l t i dA case characterized by poorly constrained columns of poor rock.
Splitting Failure
For widely spaced and vertically orientedFor widely spaced and vertically oriented discontinuities, failure generally initiates by splitting beneath the foundation.
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• The ultimate bearing capacity is given by:
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Guideline properties of Rock Mass ClClasses
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Allowable Bearing Stresses on Rock Masses
Foundations on Fractured Rock Formation30
MPa
) Note: Use maximum qa < q u
where qu = compressive strength
20
25
ress
qa (M
where qu compressive strengthof intact rock specimens
15
earing
Str
)130/(1)16/(1)(
RQDRQDMPaq ALLOWABLE −
+≈
NOTE: 1 MPa = 10 tsf
5
10
owab
le B
e
Peck, et al. (1974)
NOTE: 1 MPa = 10 tsf
00 10 20 30 40 50 60 70 80 90 100
Allo
( )Approximation
Rock Quality Designation, RQD
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In case of rock mass with favorable discontinuities, the net allowable bearing pressure may be estimated from:
qa = qc * Nj
Where qc = average uniaxial compressive strength of rock coresWhere qc average uniaxial compressive strength of rock cores
Nj = empirical coefficient depending on the spacing of the discontinuities
/3 BS+[ ])/(300110 Sδ+
=
δ = thickness of discontinuityδ = thickness of discontinuity
S = spacing of discontinuities
B = width of footing
The above relationship is valid for a rock mass with spacing of continuities > 0.3 m, δ < 10 mm (15 mm if filled with soil) and
B >0 3 mB >0.3 m.
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Pile Foundations:The allowable bearing capacity of socketed piles is given by:
qa = qc * Nj * Nd
WhereWhere
Nd = 0.8 + 0.2 h/d
h = depth of socket in rock
d = diameter of socket
Determination of Net Allowable Bearing Pressure from P t T tPressuremeter Test:
[ ])(31
fldfa DPKDq γγ −+=
Where qa = allowable bearing pressure in t/m2
Pl = limit pressure determined by the Pressuremeter in t/m2
γ Df = overburden pressure in t/m2
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Values of KdValues of Kd
Depth of footing KdDepth of footing Kd
Load at rock surface 0.8
Load at radius/width of foundation 2.0unitLoad at 4 times radius/width of 3.6foundation unit Load at 10 times radius/width of f d ti it
5.0foundation unit
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Plate Load TestPlate Load Test
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Correction Factors : (Not required for RMR)Co ect o acto s ( ot equ ed o )
• Ground Water Table: (a) Rock with discontinuous joints with opening less(a) Rock with discontinuous joints with opening less
than 1mm wide – 0.75 (b) Rock with continuous joints with opening 1 to 5
id fill d ith 0 7 t 0 5mm wide filled with gouge – 0.7 to 0.5 (c) Limestone/ Dolomite deposit with major cavities
filled with soil – 0.66 to 0.5.• Cavities: Major cavities inside limestone - 0.5• Slope and orientation of joints:
( ) F i i t ti f ti j i t i th l(a) Fair orientation of continuous joints in the slope –1 to 0.5
(b) Unfavorable orientation of continuous joints in(b) Unfavorable orientation of continuous joints in slope – 0.5 to 0.33.
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