Mohr's circles¶

$$\tau_f = \dfrac{1}{2}(\sigma_1 - \sigma_3) \sin(2\beta)$$$$\sigma_n = \dfrac{1}{2}(\sigma_1 + \sigma_3) + \dfrac{1}{2}(\sigma_1 -\sigma_3) \cos(2 \beta)$$

Mohr Envelope¶

Linearized Mohr Envelope¶

Mohr-Coulomb failure¶

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$$ \tau = S_0 + \sigma_n \mu_i $$

$$ C_0 = 2 S_0\left( \sqrt{\mu_i^2 + 1} + \mu_i \right) $$

Triaxial tests on sandstone¶

$\mu_i = \dfrac{n-1}{2\sqrt{n}}$

Mohr Envelope for Sandstone¶

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Cohesion and internal friction data¶

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Cohesion and internal friction data¶

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Yield surface¶

Mohr Coulomb Yield Surface 3Da. Licensed under CC BY-SA 3.0 via Wikipedia

$\pi$-plane¶

Mohr Coulomb Yield Surface 3Db. Licensed under CC BY-SA 3.0 via Wikipedia

Pressure dependence¶

Other failure criteria¶

Recall: Mohr Envelope for Sandstone¶

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Hoek-Brown criterion (parabolic fitting)¶

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$$ \sigma_1 = \sigma_3 + C_0 \sqrt{m \dfrac{\sigma_3}{C_0} + s} $$

$m$ and $s$ are fitting parameters that depend on rock properties and the degress of fracturing. Typical values

Typical Range of $ m $	Types of rocks
$5 < m < 8$	carbonate rocks (dolomite, limestone, marble)
$4 < m < 10$	lithified argillaceous rocks (sandstones, quartizite)
$15 < m < 24$	arenaceous rocks (andesite, dolerite, diabase, rhyolite)
$22 < m < 33$	course-grained polyminerallic gineous and metamorphic (amphibolite, gabbro, gneiss, norite, quartz-diorite)

Intact Rocks -- $s \to 1$

Completely Granualated -- $s \to 0$

Lade Criterion¶

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$$ \left( \frac{I_1^3}{I_3} - 27 \right) \left( \frac{I_1}{p_a} \right)^{m'} = \eta_1 $$

with

$I_1 = S_{ii} = S_1 + S_2 + S_3$ (first invariant of $\mathbf{S}$)

$I_3 = \det(\mathbf{S}) = S_1 S_2 S_3$ (third invariant of $\mathbf{S}$)

$p_a$ is atmospheric pressure, $m'$ and $n_1$ are material constants

Modified Lade Criterion (dependece on $\sigma_2$)¶

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$$ \left( \frac{(I_1')^3}{I_3'} \right) = 27 + \eta $$

with

$I_1' = (\sigma_1 + S) + (\sigma_2 + S) + (\sigma_3 + S)$

$I_3' = (\sigma_1 + S) (\sigma_2 + S) (\sigma_3 + S)$

$S = \dfrac{S_0}{\tan\phi}$

$\eta = \dfrac{4 (\tan\phi)^2 (9- 7 \sin\phi)}{1 - \sin \phi)}$

$\tan\phi = \mu_i$ and $S_0$ from Mohr-Coulomb criterion

Comparison¶


Mohr-Coulomb	modified Lade

Others¶

modified Wiebols-Cook
Druker-Prager
many more!