BTCVC 502: Structural Mechanics-II Syllabus for CV 5th Sem 2018-19 DBATU

Structural Mechanics-II detailed syllabus scheme for B.Tech Civil Engineering (CV), 2018-19 onwards has been taken from the DBATU official website and presented for the Bachelor of Technology students. For Subject Code, Course Title, Lecutres, Tutorials, Practice, Credits, and other information, do visit full semester subjects post given below.

For all other DBATU Syllabus for Civil Engineering 5th Sem 2018-19, do visit CV 5th Sem 2018-19 Onwards Scheme. The detailed syllabus scheme for structural mechanics-ii is as follows.

Structural Mechanics-II Syllabus for Civil Engineering (CV) 3rd Year 5th Sem 2018-19 DBATU

Course Contents

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Module 1: Analysis of trusses (6 Lectures)

Analysis of determinate and indeterminate pin jointed trusses by energy method, effects of settlement and pre-strains

Module 2:Moving Loads and Influence Lines (6 Lectures)

Introduction to moving loads, concept of equivalent UDL, absolute maximum bending moment and shear force, concept of influence lines, influence lines for reaction, shear force, bending and deflection of determinate beams, influence line diagram (ILD) for forces in determinate frames and trusses, analysis for different types of moving loads, single concentrated load, several concentrated loads, uniformly distributed load shorter and longer than span, application of Muller Breslau principle for determinate structures to construct ILD

Module 3:Cables, Suspension Bridges and Arches (6 Lectures)

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Module 4:Analysis of Indeterminate Structures by direct Flexibility Method (6 Lectures)

Fundamental concepts of flexibility method of analysis, flexibility coefficients and their use in formulation of compatibility equations, application of above methods to propped cantilevers, fixed beams, continuous beams,simple pin jointed frames including effect of lack of members, rigid jointed frames.

Module 5:Analysis of Indeterminate Structures by direct Stiffness Method (6 Lectures)

Fundamental concepts of stiffness method of analysis, stiffness coefficients for prismatic members and their use for formulation of equilibrium equation, applications of the above methods to indeterminate beams and simple rigid jointed frames, rigid jointed frames with inclined member but having only one translational DoF in addition to rotational DoF’s, including the effect of settlement of supports, pin jointed frames.

Module 6: Finite Element Method(Contents to conceptual level (6 Lectures)

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Text Books:

• Reddy C. S., Basic Structural Analysis, Tata McGraw Hill
• Pandit G. S. and Gupta S. P., Structural Analysis – a Matrix Approach, Tata McGraw Hill, N.Delhi, 1986
• Chandrupatla T. R., Belegundu A. D., Introduction to Finite Elements in Engineering, Prentice Hall, N. Delhi, 1996
• Thadani B. N. and Desai J. P., Structural Analysis
• Punmia B.C., Structural Analysis, Laxmi Publications
• Wang C.K., Statically Indeterminate Structures, McGraw Hill
• Vazirani V.N., Ratwani M.M and Duggal S.K., Analysis of Structures – Vol. IIKhanna Publishers, N. Dehli, ISBN No. 978-81-7409-205-6
• Sadhu Singh, Theory and Solved Problems in Adv. Strength of Materials, Khanna Publishers, N. Dehli, ISBN No. 978- 81-7409-212-7
• Ramamrutham S. and Narayanan R., Theory of StructuresDhanpatRai Publishers, Delhi

Reference Books:

• Norris C. H. and Wilbur J. B., Elementary Structural Analysis, McGraw Hill
• Beaufait, F. W., Basic Concepts of Structural Analysis, Prentice Hall, N.J.
• Kinney J. S., Indeterminate Structural Analysis, Oxford and IBH
• Krishnamurthy, C.S., Finite Element Analysis – Theory and Programing, Tata McGraw Hill, N. Delhi 1994
• Hibbler R. C., Structural Analysis, Pearson Publications
• Kanchi M. B., Matrix Methods of Structural Analysis, Wiley Eastern Ltd., N. Delhi
• Wang C. K., Matrix Methods of Structural Analysis, International Text-book, Scranton, Pennsylvania, 1970
• Gere J.M., Weaver W., Analysis of Framed Structures, D. Van Nostrand Company, Inc., Princeton, N. Jersey

Course Outcomes:

On completion of the course, the students will be able to:

1. CO1: Have a basic understanding of matrix method of analysis and will be able to analyze the determinant structure.
2. CO2: Have a basic understanding of the principles and concepts related to finite difference and finite element methods
3. CO3: Have a basic understanding of concept of influence line

For detail syllabus of all other subjects of Civil Engineering (CV) 5th Sem 2018-19 regulation, visit CV 5th Sem Subjects syllabus for 2018-19 regulation.