7.1 General & Design
ENDUROWALL® wall frames have been designed to engineering standards and it is essential that to perform as designed, they are , but they must be handled, erected and braced correctly to perform as designed. The following recommendations apply to wall frames on standard domestic and light commercial buildings.
Components are selected from the ENDUROFRAME^® ENDUROFRAME® Building System Design Manual and detailed using the ENDUROCADD® design software to suit the specific roof and floor loads appropriate to the site and architecture. Additional loading such as Air Conditioningair conditioning, etc. require special consideration at the time of design and the placing of these additional loads should be referred back to the designer.
Wind load is an important factor in the design and performance of wall frames. Ensure that the correct design wind loads have been used and that the tie down of frames to the floor structure is carried out in accordance with this manual or as specified by the design engineer.
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6.1
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Prior to construction
Before commencing wall construction:
Check the support structure in particular the plan dimensions, the The support structure needs to be suitable to build on, make sure to check:
- support structure against the plan dimensions
- plumb and level of the support structure,
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- straightness of the supporting walls or beams
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- structure is adequately braced, stable and tied down.
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You must rectify the support structure prior to proceeding if it is found to be deficient |
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Wall frames must be inspected and any damaged parts must be reported immediately to ensure correct rectification. Approval for site rectification should be obtained from the manufacturer. |
Figure 7.1 Wall Below is an example of a wall frame layout drawing as generated by the ENDUROCADD® software
NOTES:.
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The layout drawing specifies the correct frame orientation. Ensure frames are orientated as shown on the wall layout. The branding on the plates and nogging are on the side indicated by the arrows. |
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During the detailing / fabrication process the wall frames are numbered to accurately identify them. These numbers are shown on the wall frame layout and form part of the frame branding (refer Section 6). In addition location of numbers of incoming walls are marked on the frames. Frames may have identical shape but may differ in the configuration or internal connections. Ensure that the correct frame is used in its specified location on the wall. |
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6.1.
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1 Safety
Ensure that all barriers or scaffolding used in order to comply with safe work practices are installed so as to not damage or overload wall components.
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6.1.
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2 Load bearing wall
The builder should ensure that all loads from both internal and external walls are accommodated in the foundation sub-flooring.
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6.1.
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3 Fasteners
Generally, in non-cylonic wall construction, #10-16x16mm wafer or , #10-16x16mm hex head or #12-14x20mm hex head self-drilling Class 3 Tek screws are used for all structural connections. Use the recommended number quantity shown on the drawings.
In connections, maintain a minimum fastener spacing of 17mm and minimum distance of 17mm to the edge of sections.
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6.2 Wall
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frame setout
Prior to lifting any frames into place, mark out the frame locations on the floor, using the supplied Wall Framing Layout as a reference. Check by measuring diagonals that the marked wall positions are square.
Figure 7.2 Mark set out of wall panels using chalk line
7.3 Damp Proof Course
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6.3 Damp proof course
You must install moisture impermeable membranes under all perimeter bottom plates fixed to concrete slabs on the ground. The membrane should also extend up the weather side flange of the bottom plate, and may be pre-applied to the bottom plates at the time of rollforming. This
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Using moisture impermeable membranes under all perimeter walls is consistent with good building |
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practice and is a condition of BlueScope Steel's warranty on house framing made from TRUECORE® steel. |
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For more information, see BlueScope Steel Technical Bulletin-34 |
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These membranes should also extend up the weather side flange of the bottom plate because this part of the frame is subject to moist air movement from the lower parts of the cavity as it evaporates and attempts to move past the masonry damp proof course. While it is not considered essential to protect internal bottom plates from moisture, it is best practice is to install impermeable membranes under all interior and exterior bottom plates regardless of conditions.
Suitable impermeable membranes include:
- Bitusik by Grace construction products
- Brushable Hydroseal from Tremco
- Kordon Termite Barrier by Bayer
- Polyethylene and other products specified in BCA Section: Volume 2, 3.3.4.4
- Brushable Hydroseal from Tremco
- Kordon Termite Barrier (see manufacturer's specification for detail)
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Whilst erecting wall frames ensure that each frame is erected in the correct position, correctly orientated: correctly positioned and orientated to be aligned with the wall slopes slope and plumb (check using a spirit level).
Best practice is to use the membrane on all underside surfaces (interior and exterior bottom plates) regardless of conditions.
This ensures moisture control no matter what material the underside of the bottom plates come in contact with.
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You do not need impermeable membranes when frames are fixed to suspended floors and adequate ventilation is supplied with a minimum distance of 400mm between the underside of the floor framing and the existing ground level. For wet areas refer to AS3740 - 2010: Waterproofing of domestic wet areas. |
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The impermeable membrane can be pre-applied to bottom plates at the time of rollforming. |