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UC timber wall innovation a leap forward for safety, construction and environment

09 December 2021

Exciting new research has demonstrated cross-laminated timber (CLT) walls are feasible and cost-competitive with steel or concrete systems in low-rise buildings and offer significant environmental benefits.

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The findings from research by听Associate Professor Minghao Li听and his team at the 茄子视频app官网 (UC) could have far-reaching implications for the construction and forestry industries and New Zealand鈥檚 quest to become a carbon-neutral economy.

Associate Professor Li and his PhD student Ben Moerman have been testing large CLT shear walls in the UC Structural Engineering Laboratory to find out how these multi-storey walls behave in significant earthquakes.

鈥淲e loaded the walls horizontally to create a similar scenario of multi-storey CLT buildings in big earthquakes like the ones in Christchurch,鈥 explains Associate Professor Li, who points out that the weight of timber is only one-fifth of concrete, meaning much lower earthquake loads, but engineered timber has similar strength as concrete.

Assoc Prof Mighao Li and PhD student Ben Moerman PhD student Ben Moerman and Associate Professor Minghao Li have been testing large cross-laminated timber walls at the Structural Engineering Laboratory at the 茄子视频app官网.

鈥淲ith the right connections, CLT buildings can be really strong and resilient in an earthquake.鈥

The research team designed innovative high capacity connections to resist earthquake forces and protect the integrity of the timber walls.

鈥淲e have tested those large-capacity connections that tie the walls down to the foundations to study their performance in an earthquake,鈥 explains Moerman, who was excited to see that steel dowels in the connections would bend to absorb energy and prevent the walls from being significantly damaged or collapsing.

鈥淭he main benefit is that after an earthquake you can simply replace the dowels and the buildings will be just as strong as they were before the earthquake,鈥 says Moerman.

The EQC-funded research in Christchurch has major environmental implications as the construction industry contributes around 40 per cent of global CO2听emissions, while New Zealand鈥檚 building industry contributes around 20 percent of the country鈥檚 carbon footprint.

鈥淚f we can put more wood from sustainable plantations into buildings, we can lock carbon into those buildings for at least 50 years, which will have great benefits for New 茄子视频app官网to achieve our carbon-neutral goals,鈥 says the project lead.

鈥淣ew 茄子视频app官网has 2.1 million hectares of plantation forests and we grow a lot of high quality timber, like radiata pine that we can use for construction. We hope our research will convince the building industry to use more timber, which will also benefit our forestry industry.鈥

Associate Professor Minghao Li acknowledges that currently engineered timber materials might be slightly more expensive than other materials, but the speed of construction and limited resources required may also make timber a cost competitive building solution.

鈥淭he walls are pre-fabricated off-site and you only need a handful of staff to put the walls together, so you make savings and can build much faster by using timber.鈥

PhD student Ben Moerman Ben Moerman shows how the steel dowels in the specially designed connections bend to absorb seismic energy and prevent the walls from being significantly damaged or collapsing.

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