程序代写代做 EGA200

EGA200
Civil Engineering Design Practice I
Detailed Design 1 Submission 4 and Steel Design
Xiaojun Yin (Ping) & College of Engineering Swansea University
Civil Engineering Design Practice I Lecture 6

EGA200
Royal Institute of British Architect (RIBA) and Construction Industry Council (CIC)
Plan of works
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Civil Engineering Design Practice I
Lecture 1

EGA200
Detailed design should aim to:
Submission 4
• Produce a design package which encompasses the final decision on every matter related to design specifications, construction and cost.
• Provide the full design of every part and component of the building by collaboration of all concerned.
Design information should include:
• Drawings, schedules and specifications which have sufficient information for costing and will enable the contractor to build.
• Pre-construction CDM risk assessment (Designer’s Risk Assessment).
Submission 3
Civil Engineering Design Practice I Lecture 6

EGA200
Detailed Design Typical Area – Plan
Ground Floor
Concrete frame
First Floor
Concrete frame

EGA200
Detailed Design Typical Area – Plan
First Floor
Concrete frame
Second Floor
Concrete frame up to Second floor

EGA200
Second Floor
A2
Detailed Design Typical Area – Plan
D2
Roof
Steel frame from Second floor to roof
Steel frame from Second floor to roof

EGA200
Detailed Design Requirement
D2
A2
Levels 2 to Roof Steel Structure With steel purlin roof
Levels 0 to Level 2 Concrete frame with continuous beams and one way slab
Civil Engineering Design Practice I
Lecture 4

EGA200
Your group is responsible for:
Groups
Structural grids
Groups
Structural grids
11 and 14
1 to 3
8 and 5
6 to 8
1and 9
2 to 4
4 and 10
7 to 9
7 and 12
3 to 5
3 and 6
8 to 10
15 and 16
4 to 6
2 and 13
5 to 7
Civil Engineering Design Practice I Lecture 6

EGA200
Detailed Design Typical Area – Plan
Ground Floor
Concrete frame
First Floor
Concrete frame

EGA200
Detailed Design Package Detailed design of structural elements
• Steel Frame
– Detailed design of beams
– Detailed design of columns
– Design of bracing system against wind loading
– Detailed design of steel connections
• Concrete Frame
– Detailed design of RC continuous floor slabs
– Detailed design of RC continuous beams
– Detailed design of a typical RC columns
Civil Engineering Design Practice I Lecture 6

EGA200
Detailed Design Package AutoCAD Drawings
• Steel Frame Option
For guidance on calculations and drawings see the Project Brief document!
– General Arrangement (GA) drawing with beam and column sizes
– Elevations of different grids with beam, column and brace sizes if relevant
– Detailed drawings of steel connections
• Concrete Frame Option
– General Arrangement (GA) drawing with beam and columns sizes
– Elevations of different grids with beam and column sizes and slab thickness
– Slab reinforcement drawing
– Column reinforcement drawing
– Beam reinforcement drawing
Civil Engineering Design Practice I Lecture 6

EGA200
Steel Design
Design considerations
• Connections between beams and columns are pinned.
• Maximum allowable deflection for beams is span/250.
• Steel purlin roof system. Plan bracing required, but calculations are not necessary.
• All columns has to be tied in two directions.
Civil Engineering Design Practice I Lecture 6

EGA200
Steel Design Tasks
• Finalised layout for the grids you are designing (Level 2 and Roof), and identify key structural elements
• Load rundown calculations
• List all the load cases and combinations
• Design of steel elements
– All the key roof beams on the grids for your group
– All the key columns on the grids for your group
– Design of typical beam to column connections
– Design of bracings for wind loading (can use STAAD Pro to calculate loads on structural elements)
• AutoCAD drawings:
– General Arrangement (GA) drawing, a plan of the grids your group is responsible for
with beams and columns clearly shown and state their sizes
– Elevations of different grids with beams, columns and bracing (if relevant) and state element sizes
– Detailed drawings of steel connections
Civil Engineering Design Practice I Lecture 6

EGA200
Steel Design
Roof loading
Permanent Load
– Self weight of structure
– Roof loading (roof, services and insulation) – 2kN/m2
Imposed Load
– Snow loading – assume 1kN/m2 maximum
– Wind loading – calculate in accordance to Eurocode
– Loading during maintenance – 1kN/m2
Use notes from EG224 to carry out detailed design of steel beams and columns.
Civil Engineering Design Practice I Lecture 6

EGA200
Submission 4 – Detailed Design Package
40% of the final mark, due on 28/04/2020
For the detailed design component of this module, each group will be allocated an area of the building to be designed in steel and an area of the building to be designed in concrete. By 28/04/2020 you must provide a detailed design package with detailed AutoCAD construction drawings for the following:
Steel Design Elements
Detailed design of beams
Detailed design of columns
Detailed design of bracings against wind loading Detailed design of connections
Concrete Design Elements
Detailed design of RC continuous floor slabs Detailed design of RC continuous beams Detailed design of a typical RC columns
Two steel design elements and two concrete design elements each!
The detailed design package will be submitted as group work. Each individual member of the group will be responsible for two steel design elements and two concrete design elements. Individual work must be checked by other group members and the final calculations and drawings will be put together to form the group detailed design package.
Assessment:
This submission will be graded based on the group output (weighting 50%) and individual output (weighting 50%).
Civil Engineering Design Practice I Lecture 6

EGA200
Identify key structural elements
11 10 9 8 7 5.063m 5.063m 5.063m 5.063m
For the tie beams, no need to do a detailed calc, use a small UB section.
SB1
SB1
SB1
Void
SB2
SB2
SB2
Roof – Steel
Civil Engineering Design Practice I
Lecture 8
10.26m
10.12m
E B A2A

EGA200
Load on beams next to voids
Floor load UDL from side without void
+
Floor load UDL from side with void
Civil Engineering Design Practice I Lecture 8

EGA200 Identify key structural elements first!
Steel
Roof
Level 2 Level 1
Ground
Concrete
E B A2A 10.26m 1.98m
Per grid line
1 to 2 beams
2 to 3 columns
2 to 4 beam to column connections Per group
1 bracing
1 bracing connection 1 column base
You may have to draw a section for each grid you are responsible for,
If they are different
SB2
SC3
SC2
SB1
SC1
10.12m
12.24m
Section for Grids 8, 9 and 10
Civil Engineering Design Practice I Lecture 8
6m
4m
4m