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Calculating bracing when renovating - BRANZ Build
https://www.buildmagazine.org.nz/index.php/articles/show/calculating-bracing-when-renovating
Bracing Calculation Sheets for Foundations and Walls, for use …
https://codehub.building.govt.nz/resources/bracing-calculation-sheets-for-foundations-and-walls-for-use-with-nzs-36042011-october-2012/
The calculation sheets A and B may be used to determine the wall and foundation bracing elements required to satisfy the requirements of NZS 3604: 2011 (including amendments) and may also be used to form part of the documentation required for a building consent application.
GIB® Bracing Calculator | GIB®
https://www.gib.co.nz/downloads-and-resources/bracing-calculator/
GIB® Bracing Calculator. GIB EzyBrace® 2016 Design Software has been updated to be more intuitive and even easier to operate than previous software versions. Download Software. Here you will find design materials to calculate bracing for timber and steel framed buildings.
HOW TO Calculating bracing - BRANZ Build
https://www.buildmagazine.org.nz/assets/PDF/Build-168-40-Design-Right-Calculating-Bracing-When-Renovating.pdf
bracing 2b bracing 2a bracing 1b Scenarios: 1. When a new wider door is added on bracing line B, replacement bracing could be added: − on both sides of the door (1a) − to the internal wall also on bracing line B (1b). 2. When an internal wall is removed on bracing line O, replacement bracing could be added on a parallel bracing line less ...
CALCULATING BRACING DEMAND FOR WALLS Wall …
https://www.buildmagazine.org.nz/assets/Uploads/Build-133-32-Design-Right-Wall-bracing.pdf
Complete the bracing calculation sheets (see Figures 3–6) to obtain bracing demand. Always use whichever has the higher demand for wind or earthquake – these have been highlighted in the calculation sheets as the minimum bracing demand required. The minimum bracing demand per bracing line is the greater of: 15 BUs/m of bracing line or
Bracing - BRANZ Build
https://www.buildmagazine.org.nz/assets/import-content/20140521/Build%20141%20Bracing%20Supplement.pdf
Build — Bracing— 1 For over 30 years, Kiwi building professionals like you have been relying on GIB® bracing systems. Designed and tested in New Zealand for local conditions, they meet and exceed New Zealand’s stringent building codes and are backed by local technical support. So you can build with confidence and complete peace of mind.*
Calculators and tools | BRANZ
https://www.branz.co.nz/calculators-tools/
NZS 4218:2009 calculation method tool. Select the climate zone and wall construction type (s) and enter area and construction R-values for the various building elements. The tool applies the calculation method automatically, and pass/fail compliance is determined. View more.
CALCULATING BRACING DEMAND FOR SUBFLOORS …
https://www.buildmagazine.org.nz/assets/Uploads/Build-132-38-Design-Right-Subfloor-Bracing2.pdf
Width = 5.0 + 0.300 + 0.300 = 5.6 m. Single-storey dimensions are: Length = 9.3 m (no soffit to lower level) Width = 8.1 m (no soffit to lower level). CALCULATING BRACING DEMAND FOR SUBFLOORS Elevation of example house. 5.600 30˚ 30˚ 1.800 4.200 7.100 6.500 300 4.800 upper floor level lower floor level 1.900 Figure 2 Figure 3
Bracing Supplement Document - GIB
https://www.gib.co.nz/assets/Uploads/LiteratureFile/GIB-Bracing-Supplement-Dec-2016.pdf
The Bracing Unit rating of a 2.7 metre high wall is obtained by multiplying the values in Tables 1 and 2 by f = 2.4/2.7 = 0.89 The Bracing Unit rating of a 3.6 metre high wall is obtained by multiplying the values in Tables 1 and 2 by f = 2.4/3.6 = 0.67 The height of walls with a sloping top plate can be taken as the average height.
Bracing Example - Manual Calculation - Google Slides
https://docs.google.com/presentation/d/1r_JVoPmeVYT2Yq7nrsMudJVwJQ4gD9LA70HmD7fuu64/edit#!
Hip = 28.3m 2 x 0.65 = 18.40kN. = 32.8kN (say) Total racking force for Wind Direction 2. = 53.5m 2 x 0.65kPa = 34.8kN (say) . 5. Design the wall bracing systems. In this example we will use diagonal bracing where possible – usually one diagonal brace per wall and two (opposing) wherever space permits in long walls. .
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