Lecture 1 - Introduction-Overview of PSC - Part 1
Lecture 2 - Introduction-Overview of PSC - Part 2
Lecture 3 - Introduction-Overview of PSC - Part 3
Lecture 4 - Prestressing: Types, Systems and Devices - Part 1
Lecture 5 - Prestressing: Types, Systems and Devices - Part 2
Lecture 6 - Prestressing: Types, Systems and Devices - Part 3
Lecture 7 - Review of short term and long-term behaviour of prestressed concrete - Part 1
Lecture 8 - Review of short term and long-term behaviour of prestressed concrete - Part 2
Lecture 9 - Review of short term and long-term behaviour of prestressed concrete - Part 3
Lecture 10 - Prestressing Strand: Mechanical properties, Types and Production process - Part 1
Lecture 11 - Prestressing Strand: Mechanical properties, Types and Production process - Part 2
Lecture 12 - Introduction to losses in prestress
Lecture 13 - Elastic shortening losses : Post-tensioned members
Lecture 14 - Friction losses : Post-tensioned members
Lecture 15 - Anchorage slip losses : Post-tensioned members
Lecture 16 - Time dependent losses
Lecture 17 - Time dependent losses : Example problem
Lecture 18 - Introduction to response of prestress member in axial load
Lecture 19 - Developing load deformation curve for different prestressing conditions
Lecture 20 - Developing load deformation curve considering long term losses
Lecture 21 - Review of simple bending theory
Lecture 22 - Analysis of flexural members
Lecture 23 - Concept of equivalent load
Lecture 24 - Stress block parameters for moment curvature analysis
Lecture 25 - Obtaining moment curvature for variour reinforcement conditions
Lecture 26 - Comparison of behaviour and layer-by-layer approach
Lecture 27 - Ultimate moment capacity
Lecture 28 - Moment capacity of flanged sections
Lecture 29 - Example for flanged section
Lecture 30 - Introduction : Kern points and pressure line
Lecture 31 - Cracking moment, Camber and deflection in prestressed beams
Lecture 32 - Stress analysis of flexural members : Example problem
Lecture 33 - Introduction : Flexural design
Lecture 34 - Design Example on type 1 member
Lecture 35 - Type 2 member and design example on type 2 members, Detailing requirements
Lecture 36 - Magnel's Graphical method and design example
Lecture 37 - Basics of shear stress and shear transfer mechanism in PSC beam
Lecture 38 - Effect of prestress on shear behaviour
Lecture 39 - Analysis of PSC beam for shear
Lecture 40 - Design of PSC beam for shear - 1
Lecture 41 - Design of PSC beam for shear - 2
Lecture 42 - Introduction to Torsion
Lecture 43 - Analysis of PSC beam for Torsion prior to cracking
Lecture 44 - Analysis of PSC beam for Torsion after cracking
Lecture 45 - Evaluation of Torsional capacity of PSc beam
Lecture 46 - Design of PSC beam for combined shear, torsion and bending
Lecture 47 - Transfer of Prestress in Pre Tensioned Member - Part 1
Lecture 48 - Transfer of Prestress in Pre Tensioned Member - Part 2
Lecture 49 - Transfer of Prestress in Pre Tensioned Member - Part 3
Lecture 50 - Transfer of Prestress in Pre Tensioned Member - Part 4
Lecture 51 - Continuous beams: Introduction and basic concepts
Lecture 52 - Continuous beams: Pressure line analysis, secondary and tertiary moments
Lecture 53 - Continuous beams: Linear transformation and concordant cable profile
Lecture 54 - Continuous Beams: Design Process
Lecture 55 - Intorduction to composite construction
Lecture 56 - Analysis of stress
Lecture 57 - Deflection of composite beams, Differential shirnkage
Lecture 58 - Analysis of composite section
Lecture 59 - Design of composite section
Lecture 60 - Concepts of Strut-and-tie model for design of disturbed regions
Lecture 61 - Guidelines for the formulations of efficient strut-and-tie model and structural behaviour of deep beams
Lecture 62 - Design example of post-tensioned deep beam using strut-and-tie model
Lecture 63 - Design example of corbel using strut-and-tie model
Lecture 64 - Basic force transfer mechanism of precast/prestressed connections and type of connections
Lecture 65 - Types of precast/prestressed connections and their seismic aspects
Lecture 66 - Precast concrete frames with unbonded prestressing
Lecture 67 - Introduction to PT slabs
Lecture 68 - PT systems and tendon dsitribution in slabs
Lecture 69 - PT one-way slabs
Lecture 70 - Two way PT slab
Lecture 71 - Design criteria fot PT slabs
Lecture 72 - Equivalent frame method
Lecture 73 - Capacity of two-way slabs
Lecture 74 - Design example of PT slab - prelimary design
Lecture 75 - Design example of PT slab - equivalent frame analysis
Lecture 76 - Design example of PT slab - design checks
Lecture 77 - Importance of external post-tensioning system for strengthening applications
Lecture 78 - Applications of external post-tensiong system for strengthening
Lecture 79 - Analysis-design considerations and case studies of external post-tensioning strengthening systems
