Classification of Soils | Civil Engineering SSC JE (Technical) - Civil Engineering (CE) PDF Download

Chapter 2
Classification of Soils
SOIL CLASSIFICATION
Soils are classified according to the following important systems:
USCS - (Unified soil clasification system)
ISSCS - (Indian standard soil classification system)
AASHTO - (American association of state highway of transport official)
Textural clasification : Not recommended ‘ISSCS’ is little differ from USCS

USCS OR ISC (Indian soil classification system):
Soils are broadly classified into three divisions:
-Coarse grained soils: In these soils, 50% or more of the total material by weight is larger than 75 micron IS sieve size.
-Fine grained soils: In these soils, 50% or more of the total material by weight is smaller than 75 micron IS sieve size.
Highly organic soils and other miscellaneous soil materials: These soils contain large percentage of fibrous organic matter, such as peat, and the particles of decomposed vegetation. In addition, certain soils containing shells, cinders and other non-soil materials in sufficient quantities are also grouped in this division.

Classification of Soils | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)


ASSHTO OR HRB:-
Classification of soil is based on both particle size composition and plasticity charateristics.
-According to this system soil are classified into b groups. A-1 to A-7 with an additionl group A-8 for peat or muck.
-This method utilise group index value.

Group Index value = 0.2a + 0.01bd+ 0.005 ca

Where,
a = That part of % passing through the 75μ seive, greater than 35% and not exceeding 75,expressed as a positive whole number (Range 1-40)
b = That part of % passing throught 75μ sieve, greater than 15% and less than 55% (Range 1-40)
c = That part of liquid limit greater than 40% and less than 60% (Range 1-20)
d = Plasticity Index greater than 10% and less than 30% (Range 1-20)

-If we put maximum value of a, b, c, d.
Group Index = 0.2 × 40 + 0.01 × 40 × 20 + 0.005 × 20 × 40= 20
GImax=20

-The group index value varies from (0 to 20).
-As the goup index value increases, less desirable a soil for highway construction.
-If the calculated value is -ve from the group index formula, then it is reported as zero

INDIAN STANDARD SOIL CLASSIFICATION SYSTEM:

Soils are divided into three broad divisions:
-Coarse grained soils, when 50% or more of the total material by weight is retained on 75 micro IS sieve.
-For fine grained soils, when more than 50% of the total material passes through 75 micron IS sieve.
-If the soil is highly organic and contains a large percentage of organic matter and particles of decomposed vegetation, it is kept in a separate category marked as peat (Pt).

In all there are 18 groups of soils: 8 groups of coarse grained, 9 groups of fine grained and one of peat.

Prefix and Suffix of ISSCS 

Soil typePrefixSubgroupSuffix
GravelGWell gradedW
SandSPoorly gradedP
SiltMSiltyM
ClayCClayeyC
OrganicOwL<35%
35%<WL < 50%
L
I
PeatPtWL > 50%H


A-line A-line is a line which represents plasticity index and liquid limit relationship

 Classification of Soils | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

The 'A' line in this chart is expressed as IP = 0.73 (WL - 20).

Division of soil fractions on the basis of Grain Sizes: Classification of Soils | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
Gravel, sand, silt, and clay are represented by group symbols G, S, M, and C respectively.

The document Classification of Soils | 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 Classification of Soils - Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

1. What is the importance of classifying soils in civil engineering?
Ans. Classifying soils in civil engineering is important because it helps engineers understand the properties and behavior of different types of soils. This knowledge is crucial for designing foundations, earthworks, and other structures that rely on soil as a supporting material. By understanding soil classification, engineers can determine the suitability of a particular soil for construction purposes, assess its strength and stability, and make informed decisions about site selection and design.
2. How are soils classified in civil engineering?
Ans. Soils are classified in civil engineering based on their physical and engineering properties. The most widely used soil classification system is the Unified Soil Classification System (USCS), which categorizes soils into different groups based on their grain size distribution, plasticity, and compressibility. The USCS classifies soils into three primary groups: coarse-grained soils (such as gravels and sands), fine-grained soils (such as silts and clays), and organic soils. Each group is further divided into subgroups and symbols are assigned to represent the soil properties.
3. What are the different soil properties considered in soil classification?
Ans. In soil classification, several properties are considered to categorize soils. These include grain size distribution, plasticity, compressibility, organic content, and moisture content. Grain size distribution refers to the proportions of different-sized particles (gravel, sand, silt, clay) present in the soil. Plasticity refers to the soil's ability to change shape without breaking or cracking, while compressibility refers to its ability to be compacted under load. Organic content and moisture content are also important factors as they influence the soil's behavior and strength.
4. How does soil classification impact construction projects?
Ans. Soil classification has a significant impact on construction projects. It helps engineers determine the type of foundation suitable for a particular soil, assess the soil's bearing capacity, and predict its settlement behavior under load. This information is crucial for designing safe and stable structures. Soil classification also aids in selecting appropriate construction techniques, determining the need for soil improvement or stabilization, and assessing the potential for soil-related hazards such as landslides or liquefaction. Overall, soil classification plays a vital role in ensuring the success and longevity of construction projects.
5. Can soil classification change over time?
Ans. Yes, soil classification can change over time due to various factors. Natural processes such as weathering, erosion, and deposition can alter the grain size distribution and composition of soils. Human activities such as excavation, compaction, and soil stabilization techniques can also modify soil properties. Additionally, environmental factors like changes in moisture content, temperature, or chemical composition can impact the behavior of soils. Therefore, it is important for engineers to consider the potential changes in soil properties over time and account for them in the design and construction of civil engineering projects.
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