Difference between revisions of "8.15 - Diaphragm design"
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: • Minimum of three vertical bracing/braced wall locations required | : • Minimum of three vertical bracing/braced wall locations required | ||
− | '''Note:''' It is important to note that fixing type and frequency may need to be changed to enable diaphragm design - Refer to Fig.8.13a for recommended standard fixing configurations. | + | '''Note:''' It is important to note that fixing type and frequency may need to be changed to enable diaphragm design - Refer to '''[[8.13 - Fixing specification|Fig.8.13a]]''' for recommended standard fixing configurations. |
Revision as of 13:54, 19 December 2017
SR structural roof decks provide a clean uncluttered soffit for the roofing system.
It is possible to enhance this uncluttered appearance by utilising the structural roof deck as a diaphragm to transfer wind loads from the perimeter walls to internal vertical bracing/walls, therefore reducing, or removing the need for in-plane roof bracing.
To design the deck as a diaphragm, the following must be considered:
- • Implications of deck layout, void sizes/locations and vertical bracing/wall positions.
- • Line loads applied to the diaphragm perimeter
- • Fixings to all perimeter edges of roof deck area
- • Minimum of three vertical bracing/braced wall locations required
Note: It is important to note that fixing type and frequency may need to be changed to enable diaphragm design - Refer to Fig.8.13a for recommended standard fixing configurations.
For useful guidance on stressed skin diaphragm design, refer to:
ECCS Publication No88: European Recommendations for the Application of Metal Sheeting acting as a Diaphragm
BS 5950-9: Structural use of steelwork in building – Code of practice for stressed skin design
SBI Document 174: Stabilisation by stressed skin diaphragm action
BS EN 1993-1-3: Cold-formed thin gauge members and sheeting, clause 10.3
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