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Mohr-Coulomb Failure theory - Shear Strength of Soil, Soil Mechanics | Soil Mechanics Notes- Agricultural Engineering PDF Download

Mohr-Coulomb failure theory

Soil generally fails in shear. At the failure surface, shear stress reaches the shear strength (tf) of the soil. It the failure surface, sliding between the particles takes place as shown in Figure 10.1. The resistance that the soil offers during deformation is mainly due to the shear resistance between the particles at their contact points at the failure surface. No crushing of individual particle takes place. According to Mohr-Coulomb failure criterion, the shear strength of the soil can be expressed as:

Mohr-Coulomb Failure theory - Shear Strength of Soil, Soil Mechanics | Soil Mechanics Notes- Agricultural Engineering              (10.1)

where c is the cohesion and Ø is the angle of internal friction of the soil. σ is the applied normal stress. The line satisfying the Eq. (10.1) is called the Mohr-Coulomb failure envelop (as shown in Figure 10.2 with red color). In Figure 10.2, it is shown that tf is the maximum stress soil can take without failure under an applied vertical stress σ  (with blue color). Figure 10.3 shows the Mohr circle of two soil elements one at the failure surface (red color) and one at any other location (blue color). The Mohr circle touches the failure envelop incase of soil element taken from location of failure surface, whereas Mohr circle of the soil element taken from other than the location of failure surface is situated below the failure envelop. Keeping σ3 constant, if vertical stress (σ1) increases the Mohr Circle becomes larger and finally it will touch the failure envelop and failure will take place (as shown in Figure 10.4). Figure 10.5 shows the Mohr circle for total stress and effective stress condition. The Eq. (10.1) represents the shear strength in terms of total stress (σ). In terms of effective stress (σ' = σ - u), the shear strength of the soil can be expressed as:

Mohr-Coulomb Failure theory - Shear Strength of Soil, Soil Mechanics | Soil Mechanics Notes- Agricultural Engineering

where u is the pore water pressure.

Mohr-Coulomb Failure theory - Shear Strength of Soil, Soil Mechanics | Soil Mechanics Notes- Agricultural Engineering

Fig. 10.1. Failure surface and shear resistance.



Mohr-Coulomb Failure theory - Shear Strength of Soil, Soil Mechanics | Soil Mechanics Notes- Agricultural Engineering

Fig. 10.2. Mohr-Coulomb failure criterion and failure envelop.


Mohr-Coulomb Failure theory - Shear Strength of Soil, Soil Mechanics | Soil Mechanics Notes- Agricultural Engineering


Fig.10.3. Mohr circles of different soil elements


Mohr-Coulomb Failure theory - Shear Strength of Soil, Soil Mechanics | Soil Mechanics Notes- Agricultural Engineering


Fig. 10.4. Mohr circles for different stress condition


Mohr-Coulomb Failure theory - Shear Strength of Soil, Soil Mechanics | Soil Mechanics Notes- Agricultural Engineering


Fig. 10.5. Mohr circles for total stress and effective stress condition

The document Mohr-Coulomb Failure theory - Shear Strength of Soil, Soil Mechanics | Soil Mechanics Notes- Agricultural Engineering is a part of the Agricultural Engineering Course Soil Mechanics Notes- Agricultural Engineering.
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FAQs on Mohr-Coulomb Failure theory - Shear Strength of Soil, Soil Mechanics - Soil Mechanics Notes- Agricultural Engineering

1. What is the Mohr-Coulomb failure theory?
Ans. The Mohr-Coulomb failure theory is a widely used theory in soil mechanics that describes the shear strength of soil. It provides a relationship between the shear stress and normal stress acting on a soil element at failure. The theory assumes that shear failure occurs along a plane of maximum shear stress and that the shear strength of soil is governed by the frictional resistance between soil particles and the cohesive forces between them.
2. How is the shear strength of soil determined using the Mohr-Coulomb failure theory?
Ans. The shear strength of soil can be determined using the Mohr-Coulomb failure theory by conducting laboratory tests such as the triaxial compression test or the direct shear test. These tests involve applying different levels of normal stress to a soil sample and measuring the corresponding shear stress required to cause failure. The results are then plotted on a Mohr's circle, and the shear strength parameters, including the cohesion and angle of internal friction, can be calculated from the intercept and slope of the failure envelope.
3. What factors affect the shear strength of soil according to the Mohr-Coulomb failure theory?
Ans. According to the Mohr-Coulomb failure theory, several factors affect the shear strength of soil. These factors include the frictional resistance between soil particles, which is influenced by the angle of internal friction, the cohesive forces between soil particles, which is represented by the cohesion, and the normal stress acting on the soil element. The angle of internal friction depends on the soil type and the interlocking of soil particles, while the cohesion is mainly influenced by the moisture content and bonding between soil particles.
4. Is the Mohr-Coulomb failure theory applicable to all types of soils?
Ans. The Mohr-Coulomb failure theory is applicable to a wide range of soils, including cohesive and cohesionless soils. However, it should be noted that the theory assumes the soil to be homogeneous, isotropic, and in a drained condition. Therefore, the applicability of the theory may be limited for soils with complex compositions, such as highly organic soils or soils with significant amounts of silt or clay. In such cases, additional considerations or modifications to the theory may be required.
5. How is the Mohr-Coulomb failure theory relevant in agricultural engineering?
Ans. The Mohr-Coulomb failure theory is highly relevant in agricultural engineering as it helps in understanding the shear strength of soils, which is essential for designing and analyzing various agricultural structures and systems. For example, knowledge of soil shear strength is crucial in designing stable foundations for agricultural buildings, determining the stability of slopes in agricultural lands, and analyzing the bearing capacity of soils for supporting heavy agricultural machinery. The theory also plays a significant role in soil mechanics, which is essential for efficient irrigation, drainage, and soil conservation practices in agricultural engineering.
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