Soil Stabilization | Civil Engineering SSC JE (Technical) - Civil Engineering (CE) PDF Download

Chapter 15 Soil Stabilization

STABILIZATION OF SOILS
Stabilization is the process by which the strength and stability of a soil mass is improved and increased

Soil Stabilization Methods with Different Materials:
Following are the various soil stabilization methods and materials:

-Soil Stabilization with Cement:
The soil stabilized with cement is known as soil cement. The cementing action is believed to be the result of chemical reactions of cement with siliceous soil during hydration reaction. The important factors affecting the soil-cement are nature of soil content, conditions of mixing, compaction, curing and admixtures used.
The appropriate amounts of cement needed for different types of soils may be as follows:
Gravels – 5 to 10%
Sands – 7 to 12%
Silts – 12 to 15%, and
Clays – 12 – 20%

Soil Stabilization using Lime:
-Slaked lime is very effective in treating heavy plastic clayey soils. Lime may be used alone or in combination with cement, bitumen or fly ash. Sandy soils can also be stabilized with these combinations. Lime has been mainly used for stabilizing the road bases and the subgrade.
-Lime changes the nature of the adsorbed layer and provides pozzolanic action. Plasticity index of highly plastic soils are reduced by the addition of lime with soil. There is an increase in the optimum water content and a decrease in the maximum compacted density and he strength and durability of soil increases.
Normally 2 to 8% of lime may be required for coarse grained soils and 5 to 8% of lime may be required for plastic soils. The amount of fly ash as admixture may vary from 8 to 20% of the weight of the soil.

Soil Stabilization with Bitumen
Asphalts and tars are bituminous materials which are used for stabilization of soil, generally for pavement construction. Bituminous materials when added to a soil, it imparts both cohesion and reduced water absorption. Depending upon the above actions and the nature of soils, bitumen stabilization is classified in following four types:
Sand bitumen stabilization
Soil Bitumen stabilization
Water proofed mechanical stabilization, and
Oiled earth.

Chemical Stabilization of Soil
-Calcium chloride being hygroscopic and deliquescent is used as a water retentive additive in mechanically stabilized soil bases and surfacing. The vapor pressure gets lowered, surface tension increases and rate of evaporation decreases. The freezing point of pure water gets lowered and it results in prevention or reduction of frost heave.

-The depressing the electric double layer, the salt reduces the water pick up and thus the loss of strength of fine grained soils. Calcium chloride acts as a soil flocculent and facilitates compaction.

-Frequent application of calcium chloride may be necessary to make up for the loss of chemical by leaching action. For the salt to be effective, the relative humidity of the atmosphere should be above 30%.

-Sodium chloride is the other chemical that can be used for this purpose with a stabilizing action similar to that of calcium chloride.
-Sodium silicate is yet another chemical used for this purpose in combination with other chemicals such as calcium chloride, polymers, chrome lignin, alkyl chlorosilanes, siliconites, amines and quarternary ammonium salts, sodium hexametaphosphate, phosphoric acid combined with a wetting agent.

Test on Expansive Soil:

-FREE SWELL TEST

Soil Stabilization | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

-DIFFERENTIAL FREE SOIL TEST

Soil Stabilization | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

Degree of Expansiveness% DFS
Low< 20%
Medium20 to 35%
High35 to 50%
Very High> 50%

 

Plasticity IndexSwelling Potential
0 to 15low
10 to 35medium
20 to 40high
> 35very high

 

The document Soil Stabilization | Civil Engineering SSC JE (Technical) - Civil Engineering (CE) is a part of the Civil Engineering (CE) Course Civil Engineering SSC JE (Technical).
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FAQs on Soil Stabilization - Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

1. What is soil stabilization in civil engineering?
Ans. Soil stabilization in civil engineering refers to the process of improving the properties of soil to enhance its strength, durability, and load-bearing capacity. It involves various techniques and methods to modify the soil's physical and chemical characteristics, such as compaction, mixing with additives, and reinforcement, to make it suitable for construction purposes.
2. What are the common additives used for soil stabilization?
Ans. The common additives used for soil stabilization include cement, lime, fly ash, and bitumen. These additives are mixed with the soil to alter its properties. Cement is typically used for improving the strength and stiffness of soil, while lime is effective in stabilizing clay soils and reducing their plasticity. Fly ash is a byproduct of coal combustion and is often used to improve the workability and stability of soil. Bitumen is commonly used for stabilizing road pavements and preventing moisture intrusion.
3. What are the benefits of soil stabilization in civil engineering projects?
Ans. Soil stabilization offers several benefits in civil engineering projects. It improves the load-bearing capacity of the soil, allowing for the construction of structures with higher weights and loads. It also increases the soil's resistance to erosion, minimizing the risk of slope failures and landslides. Additionally, soil stabilization reduces settlement and improves the overall stability of the ground. It can also be cost-effective by utilizing locally available materials for stabilization instead of importing new materials.
4. What are the different methods of soil stabilization?
Ans. There are various methods of soil stabilization used in civil engineering. Some of the common methods include mechanical stabilization through compaction, chemical stabilization using additives like cement or lime, and soil reinforcement through techniques like geosynthetics or soil nails. Other methods include thermal stabilization, where heat is used to alter the soil properties, and electrochemical stabilization, which involves the application of electrical current to enhance soil strength.
5. Is soil stabilization suitable for all types of soil?
Ans. Soil stabilization techniques can be applied to a wide range of soil types, including sandy, silty, clayey, and organic soils. However, the effectiveness of each stabilization method may vary depending on the specific soil characteristics. For example, lime stabilization is particularly effective for clay soils, while cement stabilization is suitable for a broader range of soil types. It is essential to conduct site investigations and laboratory tests to determine the most appropriate stabilization method for a particular soil type and project requirements.
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