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CE3503 Foundation Engineering Syllabus - Anna University

Access the updated Anna University CE3503 syllabus for Foundation Engineering on LearnSkart. This Anna University subject syllabus PDF presents the updated semester 5 syllabus aligned with Regulation 2021 for Civil Engineering students and related branches. It covers unit-wise subject unit topics and supports exam preparation syllabus planning for internal assessments and semester examinations under Anna University engineering syllabus standards.

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On this page, you will find the complete Anna University syllabus for CE3503 Foundation Engineering (Regulation 2021), tailored for Civil Engineering students. You can easily view the syllabus directly online or download the official syllabus PDF for offline access. The syllabus is organized unit-wise, making it simple to understand each topic and plan your studies effectively. This helps you prepare for semester exams, internal assessments, and manage your learning schedule with confidence. All content is accurate, up-to-date, and follows the latest Anna University guidelines, ensuring you have reliable information for your academic needs. Whether you are revising for exams or checking specific units, this page provides a trustworthy resource for exam preparation, engineering notes, and understanding the subject structure. Accessing the syllabus here supports your academic journey with clarity and ease.

CE3503 FOUNDATION ENGINEERING

L T P C: 3 0 0 3 | Total Hours: 45 Periods

COURSE OBJECTIVE

  • To impart knowledge to plan and execute a detail site investigation programme, to select geotechnical design parameters and type of foundations. Also to familiarize the students for the geotechnical design of different type of foundations and retaining walls.

UNIT I: SITE INVESTIGATION AND SELECTION OF FOUNDATION

Scope and objectives - Methods of exploration - Auguring and boring - Wash boring and rotary drilling - Depth and spacing of bore holes - Soil samples - Representative and undisturbed - Sampling methods - Split spoon sampler, Thin wall sampler, Stationary piston sampler - Penetration tests (SPT and SCPT) - Data interpretation - Strength parameters and Evaluation of Liquefaction potential - Selection of foundation based on soil condition- Bore log report.

UNIT II: BEARING CAPACITY OF SHALLOW FOUNDATION

Introduction - Location and depth of foundation - Codal provisions - Bearing capacity of shallow foundation on homogeneous deposits - Terzaghi's formula and BIS formula - Factors affecting bearing capacity - Bearing capacity from in-situ tests (SPT, SCPT and plate load) - Allowable bearing pressure - Seismic considerations in bearing capacity evaluation. Determination of Settlement of foundations on granular and clay deposits - Total and differential settlement - Allowable settlements - Codal provision - Methods of minimizing total and differential settlements.

UNIT III: FOOTINGS AND RAFTS

Types of Isolated footing, Combined footing, Mat foundation - Contact pressure and settlement distribution - Proportioning of foundations for conventional rigid behaviour - Minimum depth for rigid behaviour - Applications - Floating foundation - Special foundations - Seismic force consideration - Codal provision

UNIT IV: PILE FOUNDATION

Types of piles and their functions - Factors influencing the selection of pile - Carrying capacity of single pile in granular and cohesive soil - Static formula - Dynamic formulae (Engineering news and Hileys) - Capacity from insitu tests (SPT, SCPT) - Negative skin friction - Uplift capacity- Group capacity by different methods (Field's rule, Converse - Labarra formula and block failure criterion) - Settlement of pile groups - Interpretation of pile load test (routine test only), Under reamed piles - Capacity under compression and uplift - Codal provision.

UNIT V: RETAINING WALLS

Plastic equilibrium in soils - Active and passive states - Rankine's theory - Cohesionless and cohesive soil - Coulomb's wedge theory - Condition for critical failure plane - Earth pressure on retaining walls of simple configurations - Culmann Graphical method - Pressure on the wall due to line load - Stability analysis of retaining walls - Codal provision.

COURSE OUTCOMES

On completion of the course, the student is expected to be able to:

  • CO1: Graduate will demonstrate an ability to plan and execute a detailed site investigation to select geotechnical design parameters and type of foundation
  • CO2: Graduate will demonstrate an ability to design shallow foundations, its component or process as per the needs and specifications.
  • CO3: Graduate will demonstrate an ability to design combined footings and raft foundations, its component or process as per the needs and specifications.
  • CO4: Graduate will demonstrate an ability to design deep foundations, its component or process as per the needs and specifications.
  • CO5: Graduate will demonstrate an ability to design retaining walls, its component or process as per the needs and specifications.

TEXT BOOKS

  1. Murthy, V.N.S., "Soil Mechanics and Foundation Engineering", CBS Publishers and Distributors Ltd., New Delhi, 2015.
  2. Gopal Ranjan and Rao, A.S.R., "Basic and Applied Soil Mechanics", New Age International (P) Ltd., New Delhi, 2006.

REFERENCES

  1. Das, B.M., "Principles of Foundation Engineering", (Eighth edition), Thompson Asia Pvt. Ltd., Singapore, 2017.
  2. Kaniraj, S.R., "Design Aids in Soil Mechanics and Foundation Engineering", Tata McGraw Hill Publishing Company Ltd., New Delhi, 2017.
  3. Varghese, P.C., "Foundation Engineering", Prentice Hall of India Private Limited, New Delhi, 2012.
  4. Punmia, B.C., "Soil Mechanics and Foundations", Laxmi Publications Pvt. Ltd., New Delhi, 2017.

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