ge 6477 discontinuous rockweb.mst.edu/~norbert/ge6477/class notes/2 to a page/07_shearstr.pdf ·...
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GE 6477 DISCONTINUOUS ROCK7. Shear Strength of Discontinuities
Dr. Norbert H. Maerz
Missouri University of Science and Technology
(573) 341-6714
Instructional Objectives
1. Explain the differences between a simple frictional model of sliding between and the Mohr Colomb model for sliding on a discontinuity.
2. Explain the difference between peak and residual shear strength and justify the use of either model.
3. Critique the advantages and disadvantages in using triaxial vs direct shear test to establish the Mohr-Coulomb parameters.
4. Describe the shortcomings of the Mohr-Columb shear strength criterion, and how these are overcome in the Patton and Barton criteria.
5. Predict the effect of a) dilation and b) shear displacement on the fidelity of the measurements of the shear strength parameters.
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Instructional Objectives
6. Justify the Patton and Barton criteria in terms of the physical representation of the roughness representations.
7. Explain what the Barton criterion has that is missing in the Patton criterion.
8. Suggest why the other shear strength models presented in this section are not widely used.
9. Predict how the scale effect would affect the behavior of rock discontinuities in shear.
Image(s) from the collection of Dr. John Franklin.
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Shear Strength of Joints
• Largely frictional property
• Some influence of cohesion
• Very sensitive to normal or confining stress
• Principle of peak vs. residual strength
Simple Friction Model
0
1
0 1
F
R
6.02.0 R
F
6.02.0'
''
R
F
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Rock shear strength model
Triaxial tests on discontinuities
Image(s) from the collection of Dr. John Franklin.
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Triaxial tests on discontinuities
Traixial tests on discontinuities
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c
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Direct shear tests
Direct shear tests
Image(s) from the collection of Dr. John Franklin.
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Direct shear tests
• Review of stress- strain relationships
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Direct shear test results
Big direct shear tests
Image(s) from the collection of Dr. John Franklin.
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Mohr-Coulomb model
n
c
tannc
M-C model vs. data
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Picture(s) from Gonzales de Vallejo and Ferrer
What makes a good model?
1. Accurate, faithful.2. Simple – If no one understand it, it goes
nowhere.3. Lowest possible number of parameters – If
there are too many it is too difficult.4. Critical parameters are ones that are not
easy to measure or estimate, and the model is especially sensitive to them.
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Bilinear failure criteria
• What happens during shearing of rough surfaces?
1. Dilation.
2. Destruction of asperities.
Bilinear failure criteria: Pattons i-angle
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Bilinear failure criteria: Pattons i-angle
• For low normal stress
• For high normal stress
iunp tan
rnjp S tan
Picture(s) from Gonzales de Vallejo and Ferrer
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Dilation
Dilation
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Barton’s curvilinear failure criterion
• Empirical, curilinear three-parameter empirical shear strength model
• Uses Joint Roughness Coefficient, Joint (wall) Compressive Strength, and a base friction angle
b
nn
JCSJRC
10logtan
• JRC (Joint roughness coefficient).
• Typically estimated, or calculated from a digitized profile.
• Range 0-20.
Picture(s) from Gonzales de Vallejo and Ferrer
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JCS (Joint wall Compressive Strength) from Schmidt Hardness
Image(s) from the collection of Dr. John Franklin.
Base angle of friction
• Tilt test on core
• Typical guess = 30 degrees
tan155.1tan 1b
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Barton Model
Barton vs Patton
b
nn
JCSJRC
10logtan
ubn
iJCS
JRC
10log
un i tan
ub IF
iJCS
JRCn
10log
Equating
THEN
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Barton Model
Roughness
• Directional.
• Can be thought of as a waveform.
• No direct relationship between roughness and shear strength.
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Roughness
• Amplitude, wavelength, slope.
• Ratio of filling thickness to amplitude.
Roughness to shear strength
• 1) Generate roughness profiles.
• 2) Measure some parameters on profile, such as average slope, use in Patton’s model.
• 3) Empirical relationship to a parameter that can be used in a model, such as JRC, use in Barton’s model.
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Shadow Profilometry
Image(s) from the collection of Dr. John Franklin.
Principle of shadow profilometry
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• Angle of shadow profile
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Shadow Profilometry
• Roughness Profile with Z2 (root mean square of the first derivative), i (average micro inclination angle), Rp (roughness profile index)
Shadow Profilometry
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Shadow profilometry
Image(s) from the collection of Dr. John Franklin.
Precision of shadow profilometry
• Greater accuracy and precision
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Roughness to shear strength: Barton type curves
1401 pRJRC
Roughness to shear strength, tilt tests on cores
1411 pRJRC
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Shadow profilometry paper
• http://web.mst.edu/~norbert/pdf/jointroughness.pdf
Ladanyi and Archambault model
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Denby and Scoble Model
BnA
Reeves Model
• Uses Z2 (root mean square of the first derivative) and empircal constants C, n to fit a power law curve.
tn tan
nt ZC 2tan
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Models superimposed
Other models:
• Abound in literature,
• Suffer from obscurity.
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Roughness scale effect
• Corrugated cardboard • Rock joint surface
Roughness scale effect
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Shear strength scale effect
Picture(s) from Gonzales de Vallejo and Ferrer
Resolving shear scale effects
• Small portable shear machines - core sized
• Large lab shear machines -300 mm on side
• Field shearing machines -several m on end
• Use small tests to get residual or ultimate or base friction.
• Use roughness (whichever measure) on the scale of the potential failure.
• Use back analysis
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Time Dependent behavior of joints - rheological elements
Time Dependent behavior of joints - rheological model