NPTEL : NOC:Advanced Design of Steel Structures (Ocean Engineering)

Co-ordinators : Prof. Srinivasan Chandrasekaran


Lecture 1 - Form-dominant design - I

Lecture 2 - Form-dominant design - II

Lecture 3 - Failure theories - 1

Lecture 4 - Failure theories - 2

Lecture 5 - Failure theories - 3

Lecture 6 - Material properties - 1

Lecture 7 - Material properties - 2

Lecture 8 - Material properties - 3

Lecture 9 - FGM

Lecture 10 - FGM for marine application - 1

Lecture 11 - FGM for marine application - 2

Lecture 12 - Design methods - 1

Lecture 13 - Design methods - 2

Lecture 14 - Load combinations

Lecture 15 - Dynamic material strength

Lecture 16 - Material properties variations

Lecture 17 - Plastic design - 1

Lecture 18 - Plastic design - 2

Lecture 19 - Plastic design - 3

Lecture 20 - Shape factor examples

Lecture 21 - Plastic analysis - 1

Lecture 22 - Plastic analysis - 2

Lecture 23 - Plastic design - 1

Lecture 24 - Plastic design - 2

Lecture 25 - Plastic design - 2

Lecture 26 - Structural Stability

Lecture 27 - Euler’s load

Lecture 28 - Rotation coefficients for stability functions

Lecture 29 - Stability functions - 1

Lecture 30 - Stability functions - 2

Lecture 31 - Stability functions - 3

Lecture 32 - Buckling and stability

Lecture 33 - Critical buckling load- Numerical examples

Lecture 34 - Stability problems- numerical examples

Lecture 35 - Stability of shells

Lecture 36 - Unsymmetric bending - 1

Lecture 37 - Unsymmetric bending - example problems

Lecture 38 - Shear center - 1

Lecture 39 - Shear center - 2

Lecture 40 - Shear center - 3

Lecture 41 - Curved section

Lecture 42 - Shear center for curved sections

Lecture 43 - Shear center for unsymmetric section

Lecture 44 - Curved beam - 1

Lecture 45 - Curved beam with large curvature - 1

Lecture 46 - Curved beam with large curvature - 2

Lecture 47 - Modified area factor for curved section

Lecture 48 - M factor for curved beams

Lecture 49 - Crane hook

Lecture 50 - Thin-walled section

Lecture 51 - Open thin-walled section

Lecture 52 - Lateral torsional buckling

Lecture 53 - Design for LTB-1

Lecture 54 - Design check for LTB-2

Lecture 55 - LTB example problem

Lecture 56 - Ice loads

Lecture 57 - Ice spectrum

Lecture 58 - Blast resistant design - 1

Lecture 59 - Blast resistant design - 2

Lecture 60 - Blast-resistant design - 3

Lecture 61 - Blast-resistant design - 4

Lecture 62 - Fire-resistant design - 1

Lecture 63 - Fire-resistant design - 2

Lecture 64 - Analysis under impact loads