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Qualification - Pearson BTEC Level 5 HND in Construction and The Built Environment
Unit Name - Advanced Structural Design
Unit Level - Level 5
Unit Number - Unit 30
Unit Credit - 15
Unit code - A/615/1416
Assignment Title - Advanced Structural Design
Learning Outcome 1: Explore deflection due to wind loadings, on fixed structures, and strategies to resist wind loading
Learning Outcome 2: Determine bending, shear and deflection for complex support conditions
Learning Outcome 3: Design complex columns and piled foundations based on calculation
Learning Outcome 4: Explore the design of tensile structures.
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Aim: With the development of new materials and processes, along with technologies that allow us to design and model more complex structures, the demands on structural design become more complex. The ability to conceive of and accurately model complex buildings, bridges, roads and other types of structure, pushes both the aesthetic and technical envelope.
In managing the design and construction of modern structures, the civil or structural engineer must be able to carry out more complex calculations; dealing with dynamic conditions, while maintaining an awareness of the overall design intention.
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Essential Content
LO1 Explore deflection due to wind loadings, on fixed structures, and strategies to resist wind loading
Wind loading:
Calculating wind loading Wind loading on tall buildings Shear forces
Lateral load Uplift load Torsional load.
Managing wind loading:
Building form Stiffening.
LO2 Determine bending, shear and deflection for complex support conditions
Bending:
Supported timber beams Steel cantilever beams
Reinforced concrete cantilevers Steel three-pin frames.
Shear:
Supported timber beams Steel three-pin frames.
Deflection:
Supported timber beams with point loads and uniformly distributed loading Steel cantilever beams with point loads and uniformly distributed loading
Reinforced concrete cantilever beams with point loads and uniformly distributed loading.
Structural connections:
Beam-to-beam connections Beam-to-column connections Types of connection
Bolt fixings
Welded connections Fin plates
Splices
Bracing connections.
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LO3 Design complex columns and piled foundations based on calculation
Axial loading:
Carrying capacity of timber columns
Carrying capacity of reinforced concrete piled foundations Carrying capacity of steel piled foundations.
Eccentric loading:
Buckling Stress.
Piled foundations:
End bearing piles Friction piles Sheet piles Micropiling Helical piles.
Structural design information:
CAD drawings
Building Information Modelling Calculations.
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LO4 Explore the design of tensile structures
Linear structures:
Suspension bridges
Cable-stayed beams/trusses.
Three-dimensional structures: Tensegrity structures Tensairity structures.
Surface-stressed structures: Pre-stressed membranes Gridshell
Fabric structure.
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Learning Outcomes and Assessment Criteria
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Pass
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Merit
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Distinction
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LO1 Explore deflection due to wind loadings, on fixed structures, and strategies to resist wind loading
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D1 Calculate and size the type of lateral stiffening required to resist wind loading for a given structure
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P1 Calculate wind loads on fixed structures
P2 Discuss methods to resist or manage wind loading
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M1 Analyse the relationship between building form and wind loading
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LO2 Determine bending, shear and deflection for complex support conditions
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D2 Critically evaluate different materials and their structural efficiency in managing bending, shear and deflection
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P3 Calculate bending and shear in complex support conditions
P4 Determine deflection in complex support conditions
P5 Evaluate structural connections in relation to complex support conditions
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M2 Discuss the relationship between bending, shear and deflection
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LO3 Design complex columns and piled foundations based on calculation
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D3 Assess the most effective foundation type for a given scenario in terms of ease and speed of construction, economics, safety and environmental factors
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P6 Calculate the axial load carrying capacity of complex columns, with eccentric loading
P7 Calculate the axial load carrying capacity of reinforced concrete piled foundations
P8 Prepare design information for a structure utilising piled foundations and steel columns
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M3 Discuss the benefits of using Building Information Modelling in the design workflow
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LO4 Explore the design of tensile structures
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D4 Using calculations as well as other research, justify the choice of a tensile structure solution for a given scenario
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P9 Discuss the differences between types of tensile structures
P10 Design a simple tensile structure for a given scenario
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M4 Compare tensile structural solutions to a given scenario
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