Is cross-laminated timber the concrete of the future?

Concrete, an essential building material, has for decades offered us the possibility of shaping our cities quickly and effectively, allowing them to rapidly expand into urban peripheries and reach heights previously unimagined by mankind. Today, new timber technologies are beginning to deliver similar opportunities – and even superior ones – through materials like Cross-Laminated Timber (CLT).

To better understand the properties and benefits of CLT, we talked with Jorge Calderón, Industrial Designer and CRULAMM Manager. He discusses some of the promising opportunities that CLT could provide architecture in the future.

cross-laminated timber

What is the difference between laminated timber and CLT?

Laminated timber is the result of joining boards to form a single structural unit. While they can be curved or straight, the grains are always aligned in one direction. With CLT, however, the stacking of boards in perpendicular layers allows the manufacture of plates or surfaces – or walls. It's a plywood made of boards that can reach enormous dimensions: between 2.40 m and 4.00 m high, and up to 12.00 meters long.

To transport CLT, the plates are cut into pieces and placed in containers or low-platform trucks.

What is the environmental impact of CLT?

CLT was first manufactured in Austria with the aim of reusing lower value timber. Today, the use of wood is again becoming a relevant factor in the construction industry because of environmental factors.

We usually design and build with concrete, but concrete's environmental footprint is enormous compared to that of wood. One ton of CO2 is emitted into the atmosphere for every cubic meter of concrete created. In contrast, CLT contains "sequestered carbon," or carbon naturally stored in wood during tree growth. Thus, despite all the energy used in the extraction and manufacturing processes, emissions from wood construction will never match the amount of carbon that is kept "sequestered" in the CLT.

How does CLT behave structurally, compared to other materials?

CLT has been called "the concrete of the future," and in a sense – it's true. It delivers at minimum the same structural strength as reinforced concrete, but it's a material with a high degree of flexibility that has to undergo great deformations to break and collapse – unlike concrete. Moreover, 1 m3 of concrete weighs approximately 2.7 tons, while 1 m3 of CLT weighs 400 kg and has the same resistance. The same goes for steel.

How does CLT behave against fire?

Smoke, which is the main cause of death during a fire, moves from one room to the other through slits or open spaces that result from the convergence of different materials. Built correctly, CLT can be completely airtight. So when constructing with CLT, it's extremely important to select and manage all of the elements that make up the final structure, such as fittings, seals, joints, etc. It's estimated that 90% of the strength of CLT comes from its fittings and joints, while only 10% is attributable to the timber itself.

How can we protect CLT from environmental conditions?

Moisture and weather are the most important enemies of wood. Exposed timber suffers, and since CLT is a structural component, we have to protect it to avoid its wear, corrosion, and collapse. While it's possible to add supplementary layers of coating to wood, such as fiber cement, brick, stone, or other materials, there are also ways to preserve exposed CLT.

Vegetable oils and mineral paints can meet these objectives if applied only once every 5 years, guaranteeing 25 years of protection without detachment or discoloration.

CLT panels function as highly accurate components

When a project is started in CLT, everything is completely decided and predetermined at the factory, and it's not possible to make adjustments on site. So, more than builders, the people who work with CLT are assemblers, who must articulate virtually perfect pieces. CLT behaves with the precision of a piece of furniture, working with margins of error of 2 millimeters.

Regarding the regulations, there are regulations in the world that guide the design and construction with CLT, but they are the sum of different aspects present in the Standards commonly used in concrete and laminated timber. In 2017, the standard currently used in the United States was published, which is simply a summary of European Standards.

Design and construction recommendations

As previously mentioned, it is essential to understand that the entire pre-construction process with CLT must be carefully developed. Design, planning, and permanent collaboration between the different actors are fundamental since the construction itself will be carried out exactly as defined in the previous stages.

During its manufacture, CLT must be made with structural wood –knowing the structural grade of each board– since the quality of the panel will be the result of the quality of the wood used. In addition, it's necessary to consider that the high precision of CLT must be able to be combined with the foundations that will receive it, avoiding, for example, concrete slabs that present imperfections. Even millimetric variations could generate huge headaches during installation.

CLT panels are currently allowing the construction of buildings with up to 30 floors, in Canada, and up to 40 floors in Finland. The future is promising and we will remain attentive to your progress. Perhaps in some years, our cities will be transformed based on the warmth and texture of the wood, also changing the way in which the design and construction of our works are conceived.