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Types of Soil Properties - Index Properties of Soil, Soil Mechanics | Soil Mechanics Notes- Agricultural Engineering PDF Download

Various types of Soil Properties

The properties of soil are dependent on either individual grains of the soil (soil grain properties: such as mineralogical composition, size and shape of grains, specific gravity) or on the soil structure, mode of formation, stress history etc. (soil aggregate properties: such as Atterberg limits, permeability, relative density, unconfined compressive strength etc.).

The shape of soil grains is a very useful grain property incase of coarse grained soils. Soil grains can be Bulky, Flaky or plate-shaped, needle-shaped. For Bulky grains, all the dimensions of a grain are more or less same (sand or gravels). The bulky grains can be angular, sub-angular, rounded, sub-rounded. Figure 3.1 shows the various shapes of bulky particle. Soil having particles with high angularity posses higher shearing strength as compared to the soil having less amount of angular particles as particles with high angularity provide more resistance against displacement. Incase of flaky grains, thickness of the particles is vary less as compared to the other two dimensions of the grain (submicroscopic crystals of clay minerals). Incase of needle-shaped grain, one dimension is much longer than the other two dimensions (clay mineral like kaolinite).  

1.1 Grain size distribution

Grain size distribution gives an idea about the percentage of various soil grains present in a dry soil sample. Grain size analysis can be carried out by sieve analysis incase of coarse-grained soil (such as sands, gravels) and hydrometer analysis incase of fine-grained soil (such as silt, clay). Incase of hydrometer analysis, Stokes’s law is used to determine the grain size distribution of the soil.

Types of Soil Properties - Index Properties of Soil, Soil Mechanics | Soil Mechanics Notes- Agricultural Engineering

Figure 3.1. Shapes of Bulky Particles.

Based on the Sieve and Hydrometer analysis, grain-size distribution curves are plotted for different soils (as shown in Figure 3.2). In the graphs, X-axis represents the particle size (mm) (in log scale) and Y-axis represents percentage passing or percentage finer (in normal scale). In curve number 1, the percentage passing corresponding to the 0.5 mm particle size is 30%. This means that the 30% particle size is less that 0.5mm. Based on the shape and slope of the grain-size distribution curve, the type and gradation of the soil can be identified. A well-graded soil has a good representation of grain or particle sizes over a wide range and has smooth gradation (Curve No.1). Poorly-graded soil has either an excess or a deficiency of certain particle sizes (Curve No. 2). In the curve number 2, particle sizes in between 0.3 mm to 1.0 mm are excessively present (almost 80%). The grain size distribution curve of a poorly-graded soil has uniform gradation. In the Gap-graded soil, some of the particles sizes are missing (Curve No. 3). In the Figure 3.2, for curve number 3, particle sizes in between 0.3 mm to 1.0 mm are missing.

In the grain size distribution curve, D10 (the diameter corresponding to 10% percentage finer or passing) is called the effective size. From the particle distribution curve, two shape parameters the (Cu) and Coefficient of Curvature (Cc) are determined.  

The Coefficient of Uniformity (Cu) and Coefficient of Curvature (Cc) are defined as:

where D60 and D30 are the grain diameter corresponding 60% and 30% finer, respectively. For well-graded soil, Cc value must be in between 1 to 3 and Cu value must be greater than 4 for gravels and greater than 6 for sands.  

Types of Soil Properties - Index Properties of Soil, Soil Mechanics | Soil Mechanics Notes- Agricultural Engineering

Figure 3.2. Grain-Size Distribute on Curves.

The document Types of Soil Properties - Index Properties 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 Types of Soil Properties - Index Properties of Soil, Soil Mechanics - Soil Mechanics Notes- Agricultural Engineering

1. What are index properties of soil?
Ans. Index properties of soil refer to a set of physical and mechanical characteristics that are used to classify and evaluate the behavior of soil. These properties include moisture content, specific gravity, grain size distribution, consistency, and Atterberg limits.
2. Why are index properties important in soil mechanics?
Ans. Index properties are important in soil mechanics because they provide fundamental information about the soil's behavior and engineering properties. They help in classifying the soil, determining its suitability for construction purposes, and predicting its response to applied loads or water content changes.
3. How are the Atterberg limits determined for soil?
Ans. The Atterberg limits of soil, which include the liquid limit, plastic limit, and shrinkage limit, are determined through specific laboratory tests. The liquid limit is determined using a standard cone penetrometer, while the plastic limit is determined by rolling the soil sample into a thread of a specific diameter. The shrinkage limit is determined by measuring the change in volume of the soil sample as it dries.
4. What is grain size distribution in soil?
Ans. Grain size distribution refers to the proportion of different-sized particles present in a soil sample. It is determined by performing a sieve analysis or hydrometer analysis on the soil sample. The grain size distribution curve obtained from these tests allows engineers to assess the soil's engineering behavior, such as its permeability and shear strength.
5. How does moisture content affect the behavior of soil?
Ans. Moisture content plays a crucial role in the behavior of soil. It affects the soil's compaction, shear strength, and permeability. When the moisture content is too high, the soil becomes saturated and loses its strength. On the other hand, when the moisture content is too low, the soil becomes dry and loses its cohesion. Finding the right moisture content for a particular engineering application is essential to ensure the stability and performance of structures built on or with soil.
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