- Basics of tall buildings
- Tallest buildings in the world (as of 2020)
- Loadings and supports
- Structural mechanics concepts
- Structural elements and their behaviour
- Structural systems and their classification
- Home
- Skill Lync
- Courses
- Structural Analysis and Design of Composite Structures using ETABS
Online
14 Weeks
Quick facts
particular | details | |
---|---|---|
Medium of instructions
English
|
Mode of learning
Self study
|
Mode of Delivery
Video and Text Based
|
Course and certificate fees
certificate availability
Yes
certificate providing authority
Skill Lync
The syllabus
Week 1 - Structural Systems for Tall Buildings (Part 1)
Week 2 - Structural Systems for Tall Buildings (Part 2)
- Structural systems and their behaviour
- Comparative study of structural systems
- Shanghai Tower – structural framing & challenges
- Taipei 101 – structural framing & challenges
- p-δ analysis
Week 3 - Loads on Tall Buildings
- Gravity loads
- Load paths
- Modelling of structure
- Wind loads as per IS 875: 2015 (Part 3)
- Wind load estimation & application in ETABS
- Earthquake loads as per IS 1893: 2016
- Seismic load estimation & application in ETABS
- Design philosophy in wind & seismic loads
Week 4 - Modal Analysis of Tall buildings
- Underlying Physics
- D'alembert's Principle
- Equation of Motion
- Modal Analysis
- Influence of Modal Response
- Idealized Model – SDOF Structure
Week 5- Structural Analysis and Design of Concrete Structures (Part 1)
- Structural actions
- Concrete & its key properties
- Characteristic strength
- Stress-strain curves
- Creep & shrinkage
- Corrosion
- Design methodology
- Limit state of design
- Load combinations
Week 6 - Structural Analysis and Design of Concrete Structures (Part 2)
- Type of slab & its function
- One-way vs Two-way slabs
- Slab design & detailing
- Beam types
- Beam analysis & design
- Column classification
- Column analysis & design
- Wall design
Week 7 - Structural Analysis and Design of Steel Structures (Part 1)
- Steel vs Concrete comparative study
- Structural steel sections
- Section classification
- Allowable stress design
- Limit state design
- Design flow chart
- Design of tension members
- Failure modes and strength estimation
Week 8 - Structural Analysis And Design Of Steel Structures (Part 2)
- Design of compression member
- Euler buckling criteria
- Flexural buckling
- Torsional-Flexural buckling
- Design of beams
- Deflection criteria for the beams
- Bolted connection
- Welded connection
Week 9 - Fundamentals of Composite Structures (Part 1)
- Composite structures
- Practical applications
- Key advantages
- Composite deck slab
- Design philosophy
- Construction of composite deck slab
- Advantages of composite deck slab
- Connection details
Week 10 - Fundamentals to Composite Structures (Part 2)
- Composite beam philosophy
- Load transfer
- Design criteria
- Prefabricated composite beams
- Composite coupling beams
- Composite columns
- Load capacity of composite columns
- Composite connection
- Composite wall
- Software advances
Week 11 - Framing Plan for Composite Deck Slab (Part 1)
- Composite deck slabs
- Various available profiles
- Design parameters
- Floor framing options
- Manual calculations
- Deck sizing and selection
- Modelling and analysis in ETABS
- Analysis of composite beams
- Design of composite beam
Week 12 - Framing Plan for Composite Deck Slab (Part 2)
- Construction details of composite slab
- Shear connectors
- Shear studs and their load transfer mechanism
- Shear resistance of the studs
- Floor vibration
- Cambering
- Heat cambering vs cold cambering
- Scheduling of construction
Week 13 - Structural Design of Composite Buildings using ETABS (Part 1)
- Study of an apartment floor plan and its occupancy
- Schematizing the structure with a dual system
- Selection of codes & Materials in ETABS
- Defining the steel beam member and Composite column in ETABS
Week 14 - Structural Design of Composite Building using ETABS (Part 2)
- Definition of composite deck slabs in ETABS
- Overview of Seismic load factors from IS-1893 and its application in ETABS
- Overview of Wind load factors from IS-875 and its application in ETABS
- Analysis and design verification of Composite columns & Steel beams in ETABS