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Simple House Acceptable Solution - Building Performance
3.3 Piled foundations 33 3.4 Timber decks 49 4.0 Wall framing 55 4.1 Bottom plates 56 4.2 Studs 57 4.3 Dwangs 60 4.4 Top plates 60 4.5 Openings 63 4.6 Wall bracing 68 4.7 Linings 75 4.8 Nailing schedule 75 4.9 Construction moisture in timber 75 5.0 roof framing 76 5.1 General 76 5.2 Trusses 86 5.3 Skillion roofs 91
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Module 6: Earthquake resistant retaining wall design
www.building.govt.nzguidance on earthquake design aspects for retaining . structures that are not well covered in these handbooks or elsewhere. The main objective is to identify situations where seismic design of retaining structures should be considered, to provide the necessary seismic parameters, and to identify key issues relating to seismic design.
Worked Example 4 | Design of a tied-back retaining wall to ...
www.building.govt.nzDesign of a tied-back retaining wall to resist earthquake loading . Worked example to accompany MBIE Guidance on the seismic design of retaining structures for residential sites in Greater Christchurch (Version 2) November 2014 . Tied-back retaining walls were used originally as a substitute for braced retaining walls in deep excavations.
Building work that does not require a building consent
www.building.govt.nzGUIDANCE Building Act 2004 THIRD EDITION 2014 - AMENDED AUGUST 2017 Building work that does not require a building consent
C/AS2 - Acceptable Solution for Acceptable Solution for ...
www.building.govt.nzC/AS2 Acceptable Solution for Buildings with Sleeping (non institutional) (Risk Group SM) For New Zealand Building Code Clauses C1-C6 Protection from Fire
Earthquake geotechnical engineering practice
www.building.govt.nzEarthquake geotechnical engineering is a highly specialised field. As such the investigations for this need to be developed and carried out by an appropriately qualified and experienced geotechnical engineer or engineering geologist (referred to herein as the geotechnical professional). For the purposes of this document ‘geotechnical
E2 External Moisture
www.building.govt.nzFor single- and two-storey concrete and concrete masonry construction within specific limitations: E2/AS3. For light steel framed buildings up to 3 storeys, within specific limitations: E2/AS4. E2.3.3 Ground contact or proximity All walls, floors and structural elements in ground contact or proximity, except for buildings where external
Acceptable Solutions and Verification Methods
www.building.govt.nz4.2 Sizing of downpipes 42 4.3 Installation of downpipes 42 5.0 Roof Gutters 42 5.1 Size of roof gutter 42 5.2 Materials44 5.3 Gradients44 5.4 Thermal movement 44 5.5 Overflow outlets 44 Appendix A Rainfall intensities 45 Index 47 Contents Amend 4 Dec 2000 Amend 4 …
Acceptable Solutions and Verification Methods
www.building.govt.nz4.2 Sizing of downpipes 42 4.3 Installation of downpipes 42 5.0 Roof Gutters 42 5.1 Size of roof gutter 42 5.2 Materials44 5.3 Gradients44 5.4 Thermal movement 44 5.5 Overflow outlets 44 E1/AS1 Appendix A Rainfall intensities 45 Acceptable Solution E1/AS2 52 1.0 AS/NZS 3500.3 Stormwater Dec 2000 drainage52 Index 56 Contents Amend 4
Commentary for Acceptable Solutions C/AS1 to C/AS7 ...
www.building.govt.nzDecember 2013. Contents Acceptable Solutions C/AS1 to C/AS7 Part 1: General 2 ... 4.11 Protected shafts 31 4.13 Floors 32 4.14 Subfloor spaces 32 ... INNOVATION AND EMPLOYMENT – 15 FEBRUARY 2013 I 1 Part 5: Control of external fire spread 34 5.1 General principles 34 5.2 Horizontal fire spread from external walls 36 5.5 Table method for ...
Constructing Cavities - Building Performance
www.building.govt.nzTable 23 (’Properties of roof underlays and building wraps‘). Install the wall underlay directly over the framing. Install the cavity battens directly over the wall underlay as described in Cavity battens on page 9. No additional wall underlay is needed between the wall cladding and the cavity battens except in the following situations.
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uotechnology.edu.iqFoundation can be built in various types of material. Generally bricks, stones, concrete, steel…etc, and are used in different forms for construction the foundation of building. The foundation is that part of walls, piers and columns in direct contact to with and transmitting loads to the ground. In practice, the concrete base
FOUNDATIONS & PIERS - Arizona
housing.az.govJul 19, 2013 · When using wood pad •Minimum 2 inch nominal thickness •Minimum 12 inches wide •Treated for ground contact, conforming to the IBC 2303.1.8 or IRC R402.1.2 •Maximum 2 stacked and fasten with corrosion resistant nails or 7/16 inch wide crown staples or screws •Cut ends must be field-treated •Do not use any 2 inch thick piece of wood with split