CE010 603 STRUCTURAL ANALYSIS II

Teaching scheme Credits: 4
3 hour lecture and 1 hour tutorial per week

Objective:
To equip the students with the comprehensive methods of structural analysis of
indeterminate structures
To give an introduction to Theory of Elasticity and Structural Dynamics.

Module 1 (10 hours)
Plastic theory – ductility of steel- plastic bending of beams- evaluation of fully
plastic moment – plastic hinge – load factor – method of limit analysis- basic
theorems- collapse load for beams and portal frames.

Module 2 (12 hours)
Approximate methods of frame analysis: Frames under lateral loading-portal
method – cantilever method. Frames under vertical loading –substitute frame
method.
Space frames – tension coefficients-tension coefficient method applied to
space frames

Module 3 (12 hours)
Kani’s method-continuous beams & frames (without sway only).
Influence line diagrams for statically indeterminate structures: Muller Breslau’ s
principle-Influence lines for reactions-shear force-bending moment-propped
cantilever& two span continuous beams.

Module 4 (14 hours)
Elementary theory of elasticity: State of stress at point- stress tensorequilibrium
Equations - stresses on arbitrary plane- principal stresses-strain components –
strain tensor- compatibility equations- boundary condition equations Two
dimensional problems- plane stresses - plane strain – compatibility equations in
two dimensional cases- Airy’s stress functions

Module 5 (12 hours)
Introduction to Structural Dynamics-Dynamic systems and loads-Free or
natural vibrations-Natural Frequency- Inertia force- -D’Alembert’s principle-
Mathematical modeling of single degree of freedom systems- equivalent spring
stiffness of combination of springs

References
1. Timoshenko S.P., Theory of Elasticity, McGraw Hill.
2. Sreenath L. S, Advanced Mechanics of Solids, Tata McGraw Hill Education P. Ltd.
3. Sadhu Sindh, Strength of Materials, Khanna Publishers, 1988.
4. Bhavikatti S.S , Structural Analysis Vol. II, Vikas Publishing House (P) Ltd.
5. Seeli F.B.&Smith J.P., Advanced Mechanics of Materials, John Wiley & Sons,
1993.
6. Vazirani & Ratwani, Analysis of Structures, Khanna Publishers, New Delhi.
7. B.C. Punmia, Theory of Structures, Vol. II, Laxmi Publishers, New Delhi.
8. Prakash Rao D.S., Structural Analysis, Universal Press Ltd, Hyderabad, 1997.
9. Ameen A, Computational Elasticity, Narosa Publishers.
10. Ray W Clough, Joseph Penzien, Dynamics of structures, Mc Graw Hill,
Kogabusha Ltd.
11. Madhujith Mukopathyay, Structural Dynamics, vibrations&systems, Ane Books Pvt.
Ltd, 2008.
12. V.K.Manicka Selvam, Elementary Structural Dynamics, Dhanpat Rai Publications
Pvt.Ltd.
13. Mario Paz, William Leigh, Structural Dynamics, Springler.