Masters of Engineering - Come study Fire Engineering at Stellenbosch University
FireSUN
Masters of Engineering - Come study Fire Engineering at Stellenbosch University
1:41
4. Fighting informal settlement and backyard fires - From alarms to fire trucks
FireSUN
4. Fighting informal settlement and backyard fires - From alarms to fire trucks
10:04
7. Moving forward: To safer informal settlement and backyard communities
FireSUN
7. Moving forward: To safer informal settlement and backyard communities
7:20
6. Making informal settlement homes more fire resistant
FireSUN
6. Making informal settlement homes more fire resistant
7:44
5. Backyard dwellings and fire safety
FireSUN
5. Backyard dwellings and fire safety
5:29
3. Community engagement: How should we partner and engage with communities to improve fire safety?
FireSUN
3. Community engagement: How should we partner and engage with communities to improve fire safety?
9:39
2. Understanding fire science: A spark becomes a disaster
FireSUN
2. Understanding fire science: A spark becomes a disaster
7:18
1. Informal settlement and backyard fires: 'Our burning nation'
FireSUN
1. Informal settlement and backyard fires: 'Our burning nation'
9:32
Masters in Engineering - Launch and overview of fire safety programme at Stellenbosch University
FireSUN
Masters in Engineering - Launch and overview of fire safety programme at Stellenbosch University
55:22
Fundamentals of Fire Safety Engineering - 15-19 August 2022 - Course overview
FireSUN
Fundamentals of Fire Safety Engineering - 15-19 August 2022 - Course overview
6:07
Cone Calorimeter & Heat Release Rates for Fire Engineering
FireSUN
Cone Calorimeter & Heat Release Rates for Fire Engineering
8:13
Understanding standard fire furnace testing
FireSUN
Understanding standard fire furnace testing
13:23
Understanding passive fire protection products for buildings - Some demonstrations and discussions
FireSUN
Understanding passive fire protection products for buildings - Some demonstrations and discussions
13:52
Fire Behaviour - Introduction to the course - Stellenbosch University
FireSUN
Fire Behaviour - Introduction to the course - Stellenbosch University
5:56
Steel Connections - Design of bolted and welded connections - SD424
FireSUN
Steel Connections - Design of bolted and welded connections - SD424
31:58
Steel Connections - Bolt capacity and failure modes - SD424
FireSUN
Steel Connections - Bolt capacity and failure modes - SD424
11:22
Steel Connections - Derivation of force in a bolt group loaded in plane - SD424
FireSUN
Steel Connections - Derivation of force in a bolt group loaded in plane - SD424
8:00
Building Design and Analysis: Load Paths for Vertical Loads (Load run down)
FireSUN
Building Design and Analysis: Load Paths for Vertical Loads (Load run down)
11:52
Building Design & Analysis: Load Paths for Lateral Loads and Bracing Design
FireSUN
Building Design & Analysis: Load Paths for Lateral Loads and Bracing Design
20:12
Structural Analysis and Design - P-delta effects, Second-order Analyses & Notional Horizontal Loads
FireSUN
Structural Analysis and Design - P-delta effects, Second-order Analyses & Notional Horizontal Loads
9:10
Structural Analysis and Design - Approximate building analyses / Truss-beam analogy for design
FireSUN
Structural Analysis and Design - Approximate building analyses / Truss-beam analogy for design
8:05
Structural Analysis and Design - Understanding bracing and bending moments in buildings
FireSUN
Structural Analysis and Design - Understanding bracing and bending moments in buildings
22:51
Steel Design - Beam-column design - Worked Example - SD424
FireSUN
Steel Design - Beam-column design - Worked Example - SD424
23:41
Steel Design - Beam-column design - Theory and equations - SD424
FireSUN
Steel Design - Beam-column design - Theory and equations - SD424
41:32
Steel Design - Shear design of members - SD424
FireSUN
Steel Design - Shear design of members - SD424
5:01
Steel Design - Influence of bending moment on capacity - w2 factor - SD424
FireSUN
Steel Design - Influence of bending moment on capacity - w2 factor - SD424
7:01
Steel Design - Effective lengths of columns - SD424
FireSUN
Steel Design - Effective lengths of columns - SD424
6:39
Steel Design - Effective lengths of beams / Normal vs. destabilising loads / Connections - SD424
FireSUN
Steel Design - Effective lengths of beams / Normal vs. destabilising loads / Connections - SD424
8:30
Steel Design - Effective lengths of beams - Illustration example - SD424
FireSUN
Steel Design - Effective lengths of beams - Illustration example - SD424
10:21
Steel Design - Section Classification and Local Buckling - SD424
FireSUN
Steel Design - Section Classification and Local Buckling - SD424
13:56
World's largest informal settlement fire experiment - 20 homes ignited in 5 minutes
FireSUN
World's largest informal settlement fire experiment - 20 homes ignited in 5 minutes
5:47
Composite Structures in Fire: Introduction
FireSUN
Composite Structures in Fire: Introduction
13:24
Advanced Modelling of Structures in Fire
FireSUN
Advanced Modelling of Structures in Fire
3:49
Timber Structures in Fire: Introduction
FireSUN
Timber Structures in Fire: Introduction
3:17
Concrete Structures in Fire: Introduction
FireSUN
Concrete Structures in Fire: Introduction
5:08
Steel Structures in Fire: Introduction
FireSUN
Steel Structures in Fire: Introduction
3:10
Design of Structures Exposed to Fire: Introduction
FireSUN
Design of Structures Exposed to Fire: Introduction
2:52
Fires and Heat: Introduction
FireSUN
Fires and Heat: Introduction
2:30
Structural Fire Engineering - Introduction
FireSUN
Structural Fire Engineering - Introduction
3:12
Steel in Fire: Fundamentals of Design
FireSUN
Steel in Fire: Fundamentals of Design
6:20
Steel in Fire: Worked Example - Beam Design
FireSUN
Steel in Fire: Worked Example - Beam Design
19:55
Steel in Fire: Worked Example - Heat transfer and column design
FireSUN
Steel in Fire: Worked Example - Heat transfer and column design
26:02
Concrete in Fire: Behaviour and Beam Design
FireSUN
Concrete in Fire: Behaviour and Beam Design
7:11
Design of Structures Exposed to Fire: Loading
FireSUN
Design of Structures Exposed to Fire: Loading
6:29
Timber Structures in Fire: Fundamentals of Design
FireSUN
Timber Structures in Fire: Fundamentals of Design
6:24
Advanced Structural Fire Models: Fire Modelling Options
FireSUN
Advanced Structural Fire Models: Fire Modelling Options
6:21
Advanced Structural Fire Models: Modelling Members in Fire
FireSUN
Advanced Structural Fire Models: Modelling Members in Fire
7:13
Advanced Structural Fire Models: Composite Structures
FireSUN
Advanced Structural Fire Models: Composite Structures
4:13
Design of Structures Exposed to Fire - Restrained Column
FireSUN
Design of Structures Exposed to Fire - Restrained Column
14:30
Fire Severity & Resistance - Standard fire time equivalence of parametric fire
FireSUN
Fire Severity & Resistance - Standard fire time equivalence of parametric fire
10:14
Fire & Heat - Eurocode Parametric Fire Worked Example
FireSUN
Fire & Heat - Eurocode Parametric Fire Worked Example
21:28
Fires And Heat - Enclosure Fire Dynamics
FireSUN
Fires And Heat - Enclosure Fire Dynamics
9:41
Fires & Heat: Configuration factor for radiative heating
FireSUN
Fires & Heat: Configuration factor for radiative heating
4:54
Design of Structures Exposed to Fire: Strains in materials at elevated temperatures
FireSUN
Design of Structures Exposed to Fire: Strains in materials at elevated temperatures
5:53
Fire Severity & Fire Resistance: Standard fire ratings
FireSUN
Fire Severity & Fire Resistance: Standard fire ratings
4:13
Steel Structures in Fire: Section Factor
FireSUN
Steel Structures in Fire: Section Factor
5:25