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19 - CCE - Construction, Civil and Marine Engineering
CCE 105 - Advanced Structural Steel Design based on AISC
| Code | Start Date | Duration | Venue | |
|---|---|---|---|---|
| CCE 105 | 19 June 2023 | 5 Days | Cairo | Registration Form Link |
| CCE 105 | 10 July 2023 | 5 Days | Istanbul | Registration Form Link |
| CCE 105 | 07 August 2023 | 5 Days | Muscat | Registration Form Link |
| CCE 105 | 04 September 2023 | 5 Days | London | Registration Form Link |
| CCE 105 | 30 October 2023 | 5 Days | Istanbul | Registration Form Link |
| CCE 105 | 27 November 2023 | 5 Days | Cairo | Registration Form Link |
| CCE 105 | 25 December 2023 | 5 Days | Istanbul | Registration Form Link |
Please contact us for fees
Course Description
Structural engineers are used to use 3D structural analysis software and therefore they are losing more and more command of theory and knowledge of relevant specification. To have a good command in structural steel design and ability in depth to interpret structural calculations and design results, experience in hand calculations is a vital importance.
That course mainly focuses on design of structural steel members by medium of hand calculations.
Course Objectives
- Provide a good command of design of structural steel members by medium of hand calculations.
- Recognize recognize limit states and failure modes in structural steel members and systems
- Become familiar with design specification and codes for steel structures
- Understand their basis in mechanics and analysis
- Design steel members and connections with an understanding of their limit states
- Understand failure modes and current design specifications / codes
Who Should Attend?
- Students
- Analysis
- Structural Engineers
- Project Engineers
Course Details/Schedule
Day 1
- Overview of ASCE, AISC and American Seismic Specification
- Overview of ASCE 7-10
- Overview of AISC 360-10 Specification for Structural Steel Buildings
- Overview of AISC 341-10 - Seismic Provisions for Structural Steel Buildings
Day 2
- Hand Calculations to Column Design
- Buckling resistance of a pinned column with intermediate restraints
- Pinned column using non slender H-section or RHS
Day 3
- Hand Calculations to Beam Design
- Simply supported beam with intermediate lateral restraints
- Simply supported laterally unrestrained beam
Day 4
- Hand Calculations to Vertical Bracing and Purlin Design
- Vertical bracing
- Simply supported IPE profile purlin
Day 5
- Hand Calculations to Connection Design
- Bolted connection of an angle brace in tension to a gusset plate
- Fin plate beam-to-column-flange connection
