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What is meant by stability of slope ? How to calculate slope stability?

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Asked: September 25, 20202020-09-25T09:14:47+05:30 2020-09-25T09:14:47+05:30In: Foundation
nikeetasharma
nikeetasharma

nikeetasharma

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what is stability of slope and how can we calculate it?

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  1. nikeetasharma

    nikeetasharma

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    2020-10-15T09:24:02+05:30Added an answer on October 15, 2020 at 9:24 am

    Slope stability analysis is a static or dynamic, analytical or empirical method to evaluate the stability of earth and rock-fill dams, embankments, excavated slopes, and natural slopes in soil and rock. Slope stability refers to the condition of inclined soil or rock slopes to withstand or undergo movement.

    A slope can be globally stable if the safety factor, computed along any potential sliding surface running from the top of the slope to its toe, is always larger than 1.

    Analysis :-
    If the forces available to resist movement are greater than the forces driving movement, the slope is considered stable. A factor of safety is calculated by dividing the forces resisting movement by the forces driving movement.

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  2. aviratdhodare

    aviratdhodare

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    aviratdhodare
    2020-10-15T21:44:32+05:30Added an answer on October 15, 2020 at 9:44 pm

    Stability of slope comforms the ability of soil to withstand surcharge load and self weight of the soil mass in a pre determined slope . This is calculated as pet soil properties and slip circle method may be adopted.

    The concept has major applications in soil mechanics and material retaining structures like silos. The calculations basically estimate stability of sloping contours of a heap of stacked material. Any basic text in SMFE will familiarise you with the concepts and calculations.

    The main factors involved are relative density of the material, inter-granular friction, inter-granular cohesion, wetness and water table, and formation of a slip surface apart from static and dynamic loads affecting stability of the slope under consideration.

    A proper stability analysis and executing suitable corrective measures is vital to ensure continued serviceability of transportation infrastructures, and safety of water impounding structures, silos etc.,.

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  3. Komal Bhandakkar

    Komal Bhandakkar

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    Komal Bhandakkar AUTHOR
    2020-11-20T13:44:41+05:30Added an answer on November 20, 2020 at 1:44 pm
    This answer was edited.

    Slope Stability :

    Slope stability is simply an ability of soil that can resist surcharge load and the self-weight of soil mass, especially in a predetermined slope. Some methods are used to calculate the slope stability. e.g., slip circle method. In silos, it is more beneficial to calculate with proper accuracy. Following the most important factors involved in it;

    1. The relative density of the material.
    2. Inter-granular friction
    3. Inter-granular cohesion
    4. Water table & wetness
    5. Slip surface formation.

    Thank You.

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  4. Komal Bhandakkar

    Komal Bhandakkar

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    Komal Bhandakkar AUTHOR
    2020-11-21T17:38:24+05:30Added an answer on November 21, 2020 at 5:38 pm
    This answer was edited.

    If the forces available to resist movement are larger than the forces driving movement, then the slope is considered stable


    A factor of safety is calculated by dividing the forces resisting movement by the forces driving movement.


    Thank You.

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  5. aviratdhodare

    aviratdhodare

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    aviratdhodare
    2021-01-03T19:09:07+05:30Added an answer on January 3, 2021 at 7:09 pm
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    Slope stability is the process of calculating and assessing how much stress a particular slope can manage before failing. Examples of common slopes include roads for commercial use, dams, excavated slopes, and soft rock trails in reservoirs, forests, and parks. Considering the importance of slope stability to their work, it’s beneficial for civil engineers to understand how to properly evaluate slope stability and leverage various techniques to achieve slope stabilization.

    Evaluating Slope Stability

    Civil engineers evaluate slope stability on the following premise: if a slope is stable enough to resist movement, then it is considered stable; whereas if the movement is too strong for a slope, then it is considered unstable. There are a number of elements that factor into determining slope stability and are analyzed through a series of tests by civil engineers. Four of the most prominent factors include:

    • Relief – height differences amongst the slope’s terrain.
    • Material Strength – the strength of the material used in creating the slope.
    • Soil Water Content – relative amount of water in the soil surrounding the slope.
    • Vegetation – plants and vegetation covering and/or surrounding the slope area.

    Another factor which civil engineers must keep in mind is whether they are interested in determining short-term stability, long-term stability, or both. In either of these cases, civil engineers will need to evaluate the soil and determine if there is potential for slippage or sliding. In analyzing for long-term stability, engineers will also need to consider a number of factors, such as evaluating the potential quality of the soil in five or ten years or potential environmental events that could rupture or alter the soil.

    Techniques for Stabilization

    There are a number of techniques that civil engineers can leverage in achieving stabilization, some of which include:

    • Anchor blocking – where blocks are strategically placed across the slope to resist the movement of sliding soil.
    • Soil nailing – stabilization is achieved through the use of steel nails, which help provide support to the slope and/or infrastructure.
    • Gabions – attempt to provide stability through the use of walls (similar to blocks) formed with the soil. These walls are capable of being temporary for stability rehabilitation or permanent.
    • Micropile slide stabilization system – uses micropiles, concrete beams, and at times anchors to achieve stabilization. With this system, civil engineers insert a concrete beam into the ground then drill micropiles into the beam at various angles. Once complete, the connected micropiles will provide enough stability to protect an infrastructure from any sliding forces it may encounter.

    One of the more recent trends in slope stability is the implementation of sustainable slopes, particularly for flood protection systems. This process has become quite complicated as a result of the numerous variables that come with introducing a new and powerful element such as water. Due to these variables, civil engineers have had to expand and tighten their assessment and calculation skills as they deal with new uncertainties, such as the exact strength and power of a given flood.

    3D slope analysis is another growing trend for achieving and maintaining slope stability. Although not always necessary, 3D slope analysis has developed into a unique component of the slope stability process as it provides civil engineers with the capability to observe and analyze the actual state of the slope, as opposed to 2D which often relies upon assumptions to simplify the process. Furthermore, 2D slope analysis can be done only once a civil engineer knows the configuration and soil framework, whereas 3D slope analysis is able to manage more complex and potentially unknown factors. Examples of when 3D slope analysis may be used include:

    • Slopes featuring complex geometry
    • Differences in the geometry of slope and slip surface
    • Locally surcharged slope

    Slope stability has become a crucial component of America’s expanding infrastructure ecosystem. By calculating slope stability, civil engineers are able to create beautiful and innovative infrastructures in regions and areas that in the past were deemed unsafe for a building. Furthermore, the insight gained by determining slope stability has given civil engineers an expanded understanding of natural laws and forces, which they can study to improve future projects, as well as progress the civil engineering industry as a whole.

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