When completed in March 2019, Mjøsa Tower in the Norwegian town of Brumunddal will be the world’s tallest wooden building. The construction, which started in early April this year, is an example of how wood can be substituted for concrete, which is considerably heavier and less environmentally friendly. The building will stand over 80 metres tall, and its 18 storeys will house offices, a hotel and apartments.
Wooden buildings are the solution to the high demand for new housing and offices, urban densification, and stringent environmental demands. Using wood as the main building material produces lightweight and cost-effective buildings that are quick to build and have minimal environmental impact. This also applies to load-bearing elements.
Environmental concerns are perhaps key
This high-rise is being built using glulam, CLT, and Metsä Wood’s Kerto® LVL (laminated veneer lumber). To ensure the required load-bearing capacity, cross-bonded veneer panels called Kerto-Q LVL will be used for the flooring between the storeys. The panels are extremely strong and durable.
Wood is an environmentally friendly building material. As a raw material, it is renewable and abundantly available in the Nordic countries. The material absorbs more carbon dioxide as the tree grows than the quantities emitted in the manufacture of this construction material. The wood’s light weight means less transportation and lighter foundations of the kind required for concrete buildings.
Construction time slashed by half
Using wood as the main construction material, even in high-rises, is key to shortening the construction time and, consequentially, cost. Modern technology enables us to prefabricate all components in a factory with a very high degree of precision. Compared to cast-in-situ concrete, wood makes it possible for construction time to be slashed by half. In addition, it’s relatively easy to make adjustments or corrections on-site.
“The floor structures, which consist of massive beams with Kerto panels on top, are assembled in our factory, just 15 kilometres from the construction site. Obviously, that’s a huge advantage if you have something that needs to be adjusted at the factory. The work is progressing at the rate of one storey a week, which has shortened our construction time by approximately 35 to 40 per cent compared to using cast-in-situ concrete. And since the wooden components are so lightweight, we don’t need the machinery to be as heavy,” says Rune Abrahamsen, Managing Director of Moelven Limtre AS, a general subcontractor in the Mjøsa Tower project.
Using wood means greater fire safety
Fire safety is not a weak point in the wooden Mjøsa Tower. Untreated solid wood creates its own fire-resistant surface because the outermost layer chars when exposed to fire, protecting against further fire damage.
In fact, wood is a fireproof material despite the commonly held belief that it isn’t.
Erik Tveit, Project Manager at HENT AS, the general contractor for the site says:
“Fire safety rules state that buildings must be able to withstand a full fire for at least two hours without collapsing. When you have a building made of steel and concrete, the steel melts and the building collapses.”
Nevertheless, concrete will be used between the floors of the Tower’s top seven storeys. Using concrete has nothing to do with the load-bearing capacity. There’s a simpler explanation: the swaying that increases the higher you get in a building built of wood or concrete. The weight of the concrete in the upper storeys makes the swaying slower and not as readily perceivable.
Metsä Wood is supplying Kerto LVL to Moelven Limtre AS, which is constructing the wooden frame for the general contractor HENT.