# Advanced Structural Analysis

IIT Madras, , Prof. Devdas Menon

Updated On 02 Feb, 19

IIT Madras, , Prof. Devdas Menon

Updated On 02 Feb, 19

Review of basic concepts in structural analysis:structure (structural elements, joints and supports, stability, rigidity and static indeterminacy, kinematic indeterminacy);loads (direct actions, indirect loading);response (equilibrium, compatibility, force-displacement relations);levels of analysis; analysis of statically determinate structures (trusses, beams, frames);applications of principle of virtual work and displacement-based and force-based energy principles; deriving stiffness and flexibility coefficients - Review of analysis of indeterminate structures - Force methods:Statically indeterminate structures (method of consistent deformations; theorem of least work) - Displacement Methods:Kinematically indeterminate structures (slope-deflection method; moment distribution method) - Matrix concepts and Matrix analysis of structures:Matrix; vector; basic matrix operations; rank; solution of linear simultaneous equations; eigenvalues and eigenvectors;Introduction; coordinate systems; displacement and force transformation matrices;Contra-gradient principle; element and structure stiffness matrices - Element and structure flexibility matrices; equivalent joint loads; stiffness and flexibility approaches - Matrix analysis of structures with axial elements - Introduction:Axial stiffness and flexibility; stiffness matrices for an axial element (two dof), plane truss element (four dof) and space truss element (six dof) - One-dimensional axial structures:Analysis by conventional stiffness method (two dof per element) and reduced element stiffness method (single dof); Analysis by flexibility method - Plane trusses:Analysis by conventional stiffness method (four dof per element) and reduced element stiffness method (single dof); Analysis by flexibility method - Space trusses:Analysis by conventional stiffness method (six dof per element) and reduced element stiffness method (single dof) - Matrix analysis of beams and grids - Conventional stiffness method for beams:Beam element stiffness (four dof); generation of stiffness matrix for continuous beam; dealing with internal hinges, hinged and guided-fixed end supports; accounting for shear deformations - Reduced stiffness method for beams:Beam element stiffness (two dof); dealing with moment releases, hinged and guided-fixed end supports - Flexibility method for fixed and continuous beams:Force transformation matrix; element flexibility matrix; solution procedure (including support movements);

Stiffness method for grids:Introduction; torsional stiffness of grid element and advantage of torsion release; analysis by conventional stiffness method using grid element with six dof; analysis by reduced stiffness method (three dof per element) - Matrix analysis of plane and space frames - Conventional stiffness method for plane frames:Element stiffness (six dof); generation of structure stiffness matrix and solution procedure; dealing with internal hinges and various end conditions - Reduced stiffness method for plane frames:Element stiffness (three dof); ignoring axial deformations; dealing with moment releases, hinged and guided-fixed end supports - Flexibility method for plane frames:Force transformation matrix; element flexibility matrix; solution procedure (including support movements); Ignoring axial deformations - Stiffness method for space frames:Introduction; element stiffness matrix of space frame element with 12 dof and 6 dof; coordinate transformations; analysis by reduced stiffness method (six dof per element); - Analysis of elastic instability and second-order effects - Effects of axial force on flexural stiffness:Review of buckling of ideal columns; flexural behaviour and stiffness measures for beam-columns - braced and unbraced, under axial compression - Solution by slope deflection method:Slope deflection equations for prismatic beam columns using stability functions; modifications for pinned and guided-fixed-end conditions; fixed-end moments in beam-columns - Solution by matrix method:Stiffness matrix for prismatic beam-column element; estimation of critical elastic buckling loads; second-order analysis;

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4.1 ( 11 )

Advanced Structural Analysis by Prof. Devdas Menon, Department of Civil Engineering, IIT Madras For more details on NPTEL visit httpnptel.iitm.ac.in

Sam

Sep 12, 2018

Excellent course helped me understand topic that i couldn't while attendinfg my college.

Dembe

March 29, 2019

Great course. Thank you very much.