Agricultural Engineering Exam  >  Agricultural Engineering Notes  >  Soil Mechanics Notes- Agricultural Engineering  >  Introduction to Stress path - Strength Parameters of Soil, Soil Mechanics

Introduction to Stress path - Strength Parameters of Soil, Soil Mechanics | Soil Mechanics Notes- Agricultural Engineering PDF Download

What is Stress path?

Stress path is used to represent the successive states of stress in a test specimen of soil during loading or unloading. Series of Mohr circles can be drawn to represent the successive states of stress, but it is difficult to represent number of circles in one diagram. Figure 13.1 shows number of Mohr circles by keeping σ3 and increasing σ1 on σ  - t  plane. The successive states of stress can be represented by a series of stress points and a locus of these points (in the form of straight or curve) is obtained. The locus is called stress path. The stress points on σ  -t  plane can be transferred to p-q plane (as shown in Figure 13.1). The coordinates of the stress points on p-q plane can be obtained as:


\[p={{{\sigma _v} + {\sigma _h}} \over 2}\]                    (13.1)

\[q={{{\sigma _v} - {\sigma _h}} \over 2}\]                     (13.2)

The stress path can be drawn as:

(a) Total stress path (TSP)

(b) Effective stress path (ESP)

(c) Stress path of total stress minus static pore water pressure (TSSP)

If in a field situation, static ground water table exists, initial pore water pressure u0 will act on the sample. Thus, the static pore water pressure will be equal to u0. The effective stress coordinates of the stress points on p'-q' plane can be obtained as:

\[p'={{{\sigma _v} - u + {\sigma _h} - u} \over 2} = {{{{\sigma '}_v} + {{\sigma '}_h}} \over 2}\]                     (13.3)

\[q'={{{\sigma _v} - u - ({\sigma _h} - u)} \over 2} = {{{{\sigma '}_v} - {{\sigma '}_h}} \over 2} = {{{\sigma _v} - {\sigma _h}} \over 2}=q\]             (13.4)

Figure 13.2 shows different stress paths for normally consolidated clay obtained from CU (effective) test.               


Fig. 13.1. Stress point on Mohr circle and on p-q plane.


Fig.13.2. Different stress paths.

For initial condition, σvh =0 and if σv and σh are increased in such as way that ratio σhv is constant. This ratio is called lateral stress ratio, K. Thus,

\[K={{{\sigma _h}} \over {{\sigma _v}}}\]                                                                                            (13.5)

Similarly, coefficient of lateral earth pressure at rest (K0) and at failure (Kf) can be expressed as:

\[{K_0}={{{{\sigma '}_h}} \over {{{\sigma '}_v}}}\]                                                                             (13.6)
 \[{K_f}={{{{\sigma '}_{hf}}} \over {{{\sigma '}_{vf}}}}\]                                                                   (13.7)
On p-q plane, the stress ratios are representing straight lines (as shown in Fig. 13.3).


Fig. 13.3.  Variation of Stress Rations.

Figure 13.4 shows the relationship between Kf line (on p-q plane) and Mohr-Colomb failure envelope (on s  - t  plane). The shear strength parameters can also be determined from Kf line on p-q plane as:

\[\phi={\sin ^{ - 1}}(\tan \psi )\]                      (13.8)

\[c={a \over {\cos \phi }}\]                               (13.9)


Fig. 13.4. Relationship between Kf line and Mohr-Colomb failure envelope.

The document Introduction to Stress path - Strength Parameters 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 Introduction to Stress path - Strength Parameters of Soil, Soil Mechanics - Soil Mechanics Notes- Agricultural Engineering

1. What are stress path and strength parameters of soil?
Ans. Stress path refers to the path followed by a soil sample in the stress space during a particular loading or unloading process. Strength parameters of soil are the properties that determine the soil's ability to resist deformation or failure under different stress conditions. These parameters include cohesion, angle of internal friction, and effective stress parameters.
2. How are stress path and strength parameters of soil determined?
Ans. Stress path can be determined through laboratory tests such as triaxial tests or direct shear tests, where a soil sample is subjected to controlled stress conditions and its response is measured. Strength parameters of soil can be determined using various methods, including shear strength tests and consolidation tests, which measure the soil's ability to resist shear forces and compressive stresses.
3. What is the significance of stress path and strength parameters in soil mechanics?
Ans. Stress path and strength parameters are crucial in soil mechanics as they help in understanding the behavior of soil under different loading conditions. They provide information about the soil's stability, its ability to withstand applied loads, and its deformation characteristics. This knowledge is essential for designing foundations, slopes, and other geotechnical structures.
4. How do stress path and strength parameters affect agricultural engineering?
Ans. Stress path and strength parameters of soil play a significant role in agricultural engineering. They influence the design and construction of irrigation systems, drainage systems, and agricultural structures such as dams and reservoirs. Understanding the soil's strength parameters helps in determining the suitable soil types for different agricultural practices and selecting appropriate machinery and equipment for soil preparation.
5. Can stress path and strength parameters change over time?
Ans. Yes, stress path and strength parameters of soil can change over time due to various factors such as weathering, aging, and consolidation. These changes can affect the stability and behavior of the soil, and it is essential to consider them when analyzing and designing geotechnical structures or agricultural systems. Regular monitoring and assessment of soil properties are necessary to account for any changes that may occur.
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