Calculating internal wind design pressures for steel framed walls & ceilings: Key changes to AS/NZ 1170.2:2021

In Australia, all structures—without exception—must be designed to withstand internal wind pressure, which makes up a significant portion of the combined wind loads on a building. For the optimal structural design of all building types, it is essential for architects, designers and specifiers to understand the recent changes to AS/NZS 1170.2, which sets out the procedures for calculating wind speeds and resulting wind actions on buildings.

Calculating internal wind design pressures for steel framed walls & ceilings: Key changes to AS/NZ 1170.2:2021 is an essential guide to the recently updated AS/NZS 1170.2 and how it impacts the calculation of internal design pressures for steel-framed walls and ceilings. We outline the process for determining internal design pressures and highlight some of the important new requirements in AS/NZS 1170.2 that will impact the basic methodology, including changes to wind regions and terrain categories, the introduction of a climate change factor, and how to calculate internal pressure coefficient for buildings with dominant wall openings.

Rondo, a leading provider of innovative solutions for the construction industry, is committed to helping you achieve compliance in your building projects. With their state-of-the-art wall and ceilings systems, Rondo’s expert team can help you navigate the changes in AS/NZS 1170.2.

CSR Gyprock, the leading brand of plasterboard in Australia, can provide system solutions to ensure compliance to not only AS/NZS 1170.2 but also the wider requirements of the National Construction Code.

Download this whitepaper for an essential guide to the revised Wind Code and how it impacts the calculation of internal design pressures for steel-framed walls and ceilings.