EBK PRINCIPLES OF GEOTECHNICAL ENGINEER
EBK PRINCIPLES OF GEOTECHNICAL ENGINEER
9th Edition
ISBN: 9781337517218
Author: SOBHAN
Publisher: VST
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Chapter 12, Problem 12.17P

(a)

To determine

Find the normal and shear stress on a plane inclined at 33° to the major principal plane for specimen I.

(a)

Expert Solution
Check Mark

Answer to Problem 12.17P

The normal stress on a plane inclined at 33° to the major principal plane for specimen I is 179kN/m2_.

The shear stress on a plane inclined at 33° to the major principal plane for specimen I is 70.8kN/m2_.

Explanation of Solution

Given information:

Specimen I:

The chamber pressure σ3 is 70kN/m2.

The deviator stress is (σ1σ3)f is 155kN/m2.

The inclined angle with major principal plane θ is 33°.

Specimen II.

The chamber pressure σ3 is 140kN/m2.

The deviator stress (σ1σ3)f is 265kN/m2.

Calculation:

For specimen I:

Find the major principal effective stress at failure (σ1) as shown below:

(σ1)=σ3+(Δσd)f (1)

Substitute 70kN/m2 for σ3 and 155kN/m2 for (Δσd)f in Equation (1).

(σ1)=70+155=225kN/m2

Find the normal stress (σf) on a plane inclined at 33° to the major principal plane for

specimen I using the equation.

σf=σ1+σ32+σ1σ32cos2θ (2)

Here, σ3 and σ1 minor and major effective principal stress, ϕ is angle of friction, and c is cohesion.

Substitute 225kN/m2 for σ1, 70kN/m2 for σ3, and 33° for θ in Equation (2).

σf=225+702+225702cos2(33)=147.5+31.522=179kN/m2

Thus, the normal stress on a plane inclined at 33° to the major principal plane for specimen I is 179kN/m2_.

Find the shear stress (τf) on a plane inclined at 33° to the major principal plane for

specimen I using the equation.

τf=σ1σ32sin2θ (3)

Substitute 225kN/m2 for σ1, 70kN/m2 for σ3, 33° for θ in Equation (3).

τf=225702sin2(33)=77.5×0.9135=70.8kN/m2

Thus, the shear stress on a plane inclined at 33° to the major principal plane for specimen I is 70.8kN/m2_.

(b)

To determine

Find the normal and shear stress on the failure plane at failure for specimen II.

(b)

Expert Solution
Check Mark

Answer to Problem 12.17P

The normal stress on the failure plane at failure for specimen II is 214.25kN/m2_.

The shear stress on the failure plane at failure for specimen II is 119kN/m2_.

Explanation of Solution

Calculation:

Show the Mohr-Coulomb failure expression to find the major effective principal stress for specimen I as shown below:

σ1=σ3tan2(45+ϕ2)+2c(45+ϕ2) (4)

Here, σ3 and σ1 minor and major effective principal stress, ϕ is angle of friction, and c is cohesion.

Substitute σ3+(Δσd)f for σ1 in Equation (4).

σ3+(Δσd)f=σ3tan2(45+ϕ2)+2c(45+ϕ2) (5)

Substitute 70kN/m2 for σ3 and 155kN/m2 for (Δσd)f in Equation (5).

70+155=70tan2(45+ϕ2)+2c(45+ϕ2)225=70tan2(45+ϕ2)+2c(45+ϕ2) (6)

Express the Mohr-Coulomb failure for specimen II using Equation (5).

Substitute 140kN/m2 for σ3 and 265kN/m2 for (Δσd)f in Equation (5).

140+265=140tan2(45+ϕ2)+2c(45+ϕ2)405=140tan2(45+ϕ2)+2c(45+ϕ2) (7)

Subtract the Equation (6) from (7).

405225=70tan2(45+ϕ2)180=70tan2(45+ϕ2)(18070)12=tan(45+ϕ2)1.60=tan(45+ϕ2)

tan11.60=(45+ϕ2)58.0497=(45+ϕ2)13.04=ϕ2ϕ=26.09°

Calculate the angle of inclination on the failure plane using the equation:

θ=45+ϕ2 (8)

Substitute 26.09° for ϕ in Equation (8).

θ=45+26.092=45+13.045=58.04°

Find the major principal effective stress at failure (σ1) for specimen II as shown below:

Substitute 140kN/m2 for σ3 and 265kN/m2 for (Δσd)f in Equation (1).

(σ1)=140+265=405kN/m2

Find the normal stress (σf) on the failure plane at failure for specimen II.

Substitute 405kN/m2 for σ1, 140kN/m2 for σ3, 58.04° for θ in Equation (2).

σf=405+1402+4051402cos2(58.04)=272.5+132.5(0.439)=272.558.16=214.25kN/m2

Thus, the normal stress on the failure plane at failure (σf) for specimen 2 is 214.25kN/m2_.

Find the shear stress (τf) on the failure plane at failure for specimen 2.

Substitute 405kN/m2 for σ1, 140kN/m2 for σ3, 58.04° for θ in Equation (3).

τf=4051402sin2(58.04)=132.5×0.898=119kN/m2

Thus, the shear stress on the failure plane at failure (τf) for specimen 2 is 119kN/m2_.

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