Civil Engineering (CE) Exam  >  Civil Engineering (CE) Videos  >  Soil Mechanics  >  Classification of Fine Grain Soil Using Sieve Analysis Example

Classification of Fine Grain Soil Using Sieve Analysis Example Video Lecture | Soil Mechanics - Civil Engineering (CE)

30 videos|76 docs|74 tests

Top Courses for Civil Engineering (CE)

FAQs on Classification of Fine Grain Soil Using Sieve Analysis Example Video Lecture - Soil Mechanics - Civil Engineering (CE)

1. What is sieve analysis and how is it used to classify fine-grained soil?
Sieve analysis is a laboratory test method used to determine the particle size distribution of fine-grained soil. It involves passing a sample of soil through a series of sieves with different mesh sizes. The soil particles are retained on each sieve, and the amount of soil retained on each sieve is measured. This data is then used to classify the soil based on its particle size distribution.
2. Why is it important to classify fine-grained soil in civil engineering?
Classifying fine-grained soil is important in civil engineering as it helps engineers understand the soil's behavior and properties. It allows them to assess its suitability for construction projects, such as foundations, embankments, and retaining structures. The classification helps determine the soil's strength, compressibility, and permeability, which are essential for designing safe and stable structures.
3. What are the common classification systems used for fine-grained soil based on sieve analysis?
The two common classification systems used for fine-grained soil based on sieve analysis are the Unified Soil Classification System (USCS) and the AASHTO Soil Classification System. The USCS classifies fine-grained soil into groups such as clay, silt, and sand, based on the percentage of particles passing through different sieve sizes. The AASHTO system classifies fine-grained soil based on the liquid limit, plasticity index, and particle size distribution.
4. How does the liquid limit and plasticity index affect the classification of fine-grained soil?
The liquid limit and plasticity index are important parameters used to classify fine-grained soil. The liquid limit represents the moisture content at which the soil transitions from a plastic state to a liquid state. The plasticity index measures the range of moisture content over which the soil behaves as a plastic material. These values help determine the soil's plasticity, which is a key factor in its classification according to the USCS and AASHTO systems.
5. Can sieve analysis alone provide a complete characterization of fine-grained soil?
No, sieve analysis alone cannot provide a complete characterization of fine-grained soil. While sieve analysis determines the particle size distribution, other tests are needed to fully understand the soil's properties. Additional tests, such as Atterberg limits, shear strength tests, and consolidation tests, are often conducted to assess the soil's compressibility, strength, and hydraulic behavior. These tests complement the information obtained from sieve analysis to provide a comprehensive characterization of fine-grained soil.
30 videos|76 docs|74 tests
Explore Courses for Civil Engineering (CE) exam
Signup for Free!
Signup to see your scores go up within 7 days! Learn & Practice with 1000+ FREE Notes, Videos & Tests.
10M+ students study on EduRev
Related Searches

Previous Year Questions with Solutions

,

Important questions

,

past year papers

,

Classification of Fine Grain Soil Using Sieve Analysis Example Video Lecture | Soil Mechanics - Civil Engineering (CE)

,

study material

,

video lectures

,

MCQs

,

Classification of Fine Grain Soil Using Sieve Analysis Example Video Lecture | Soil Mechanics - Civil Engineering (CE)

,

Objective type Questions

,

ppt

,

Summary

,

Free

,

practice quizzes

,

Exam

,

Semester Notes

,

Sample Paper

,

mock tests for examination

,

Extra Questions

,

Viva Questions

,

shortcuts and tricks

,

Classification of Fine Grain Soil Using Sieve Analysis Example Video Lecture | Soil Mechanics - Civil Engineering (CE)

,

pdf

;