Why Mass Timber?
Human migration towards city centers has triggered massive building booms all over the world. With stress on resources and space from rapid urbanization, new forms of green building construction must be explored. Mass timber construction offers viable eco-conscious solutions to the traditional multi-story, concrete or steel apartment blocks.
In a world where the construction industry is responsible for 40 to 50 percent of CO2 emissions, renewable materials, such as wood, can help mitigate the rate of global warming. Wood sequesters carbon dioxide at a rate of 1 to 1.2 tons/m3 of wood, and has a relatively low manufacturing carbon footprint compared to other materials. In fact, wood is the only material that can remove carbon from the atmosphere for the lifetime of its usage. When sustainably-sourced, mass timber can be harvested and replenished with fewer lasting environmental impacts.
New engineering technologies and modern building techniques have advanced the capabilities of mass timber construction, particularly in mid and high-rise construction. Cross-laminated timber and glue-laminated timber are two engineered wood production methods which have enabled significant vertical growth in mass timber construction.
Cross-Laminated Timber (CLT) is made up of multiple layers of kiln-dried lumber which are alternatingly stacked perpendicular to one another, glued together, and pressed. The number of layers in a section is determined by the structural requirements of the panel. Load bearing uses for CLT panels include floors, walls, and roofs.
Glue-Laminated Timber (GLT or Glulam) is a structural engineered wood element composed of kiln-dried and glued dimension lumber with the strongest laminations centered within the beam. The grain of the laminations run parallel to its length, increasing its strength. Glulam is often used for trusses, beams, and columns. According to APA, the Engineered Wood Association, “Pound for pound, glulam is stronger than steel and has greater strength and stiffness than comparably sized dimensional lumber.”
Explore the full potential of wood as a high-performance building material and viable substitute to steel and concrete:
What initially began for our team as an experiment in materials, quickly proved worthy of further consideration. As building technologies improve and demands for green buildings increase, opportunities to explore and push the boundaries of mass timber construction will only follow suit.
