Our Mass Timber Commitment

Mass timber is a resilient, long-lasting, and sustainable material that can be used in place of steel or concrete to create structures that provide durable, cost-effective performance with less embodied carbon. Mass timber products are constructed by assembling smaller lumber pieces using adhesives, dowels, and nails to create large, load-bearing building components that are exponentially stronger than standard timber. They can be utilized in various applications such as beams, columns, as well as floor, roof and wall panels, offering versatility in construction methods and design possibilities. Because mass timber components are precisely manufactured assemblies, they provide inherent thermal benefits and can help make building envelopes more energy-efficient and airtight. This makes mass timber buildings well-suited to energy-efficient construction and the rigorous standards of Passive House and Net-Zero-ready design.

Why Mass Timber?

There’s a growing revolution in the building industry, as mass timber continues to evolve from an emerging technology to the preferred norm for structural building components in British Columbia (BC). Both Provincial and local building codes continue to advance in favour of mass timber construction, recently expanding to support more efficient and effective applications such as 18-storey residential buildings. In addition to its inherent environmental and economic benefits, mass timber can also be used to differentiate a development by creating a unique design aesthetic that allows the natural beauty of the wood to shine through.
With a long history of innovation, BC is a global leader in the production and application of mass timber products. Natural Resources Canada reports that since 2007, more than 355 multi-family, commercial, and institutional projects using mass timber have been constructed or are underway in BC alone. The Province’s mass timber sector is projected to be worth $403 million by 2035.

Benefits of Mass Timber

Sustainability
- The construction industry is a major contributor to the world’s overall CO2 emissions. Traditional building materials such as concrete and steel are carbon intensive and non-renewable, heavily contributing to global greenhouse gas emissions. Mass timber on the other hand, is a climate-friendly alternative that naturally sequesters carbon, storing it in the material for as long as the product remains in service. Mass timber consistently outperforms concrete and steel in terms of embodied energy, air and water pollution, carbon footprint, and global warming potential, especially when assessed through its lifetime, from harvest to disposal/recycling.
- Unlike conventional construction, mass timber components can be dismantled, stored, and re-utilized in future projects. The ability to easily assemble and dismantle mass timber environments provides an opportunity to transition to a circular, rather than disposable, life-cycle for building materials.
Efficient, Cost-Saving Construction
- One of the most appealing aspects of mass timber as a building material is the ease and rapid pace of construction it allows. Mass timber is pre-fabricated in off-site manufacturing facilities which ensures a high degree of quality and precision. They can be pre-fitted with connectors, so that components can be lifted directly from the truck and into place at the jobsite, saving time, reducing job-site waste, and reducing impact on the surrounding neighbourhood.
Occupant Comfort
- Wood has recognized advantages when it comes to creating an environment that fosters health and wellbeing. Studies have shown that occupants experience improved mood, health, productivity, and comfort when surrounded by natural materials, which makes mass timber especially appropriate in public buildings, such as schools and hospitals.
Structural Performance
- Mass timber is lighter than steel and concrete, with a high strength-to-weight ratio, which gives it the structural ability to span long distances without supports. It can be utilized in all aspects of construction, including walls, structural beams and bracing. Additionally, its lighter weight helps provide a better seismic response, can reduce the size of the foundations, and reduces transportation-related costs, and can decrease overall foundation costs. It often has the dual role of serving both as a structural material and aesthetic finishing material, minimizing the need for additional assemblies.
Safety
- Mass Timber construction has a proven safety record in British Columbia. Mass timber construction meets the same performance demands as other structural materials, as set out in the BC Building Code. Extensive fire testing has shown that mass timber chars on the outside, which forms an insulating layer protecting the interior from further damage. In the event of fire, the structure maintains its integrity, allowing occupants time to evacuate. Because it behaves predictably during a fire, mass timber is safe for tall building construction.
- In addition to fire safety, Mass timber structures also meet, and in some cases exceed, the seismic performance of steel and concrete buildings. Mass timber buildings can achieve sufficient stiffness, strength, and ductility to resist strong winds and earthquakes due to their lighter mass, and from properly designed connections between the more rigid elements designated to resist lateral loads.

Our Expertise

With over 20 years of experience working with Mass Timber in British Columbia, SLA is recognized as a leader in the design of Mass Timber buildings, leveraging our proven experience to advance mass timber for various project types and sizes. With an in-depth understanding of different mass timber and engineered wood products, we can deliver on efficient design strategies to maximize structural efficiencies, while also utilizing BIM workflows to optimize the delivery of the project.
Stephane was a contributor to the 2024 Mass Timber Road Map (find the future of Canada’s mass timber here), which was prepared by The Transition Accelerator/ L’Accélérateur de transition, Forest Products Association of Canada, Canadian Wood Council, and the Energy Futures Lab. Stephane has also participated in numerous Mass Timber Conferences and Tours, including Forum Holzbau in Innsbruck, Austria and the International Mass Timber Conference in Portland, Oregon.
As the industry continues to research and innovate, mass timber products are becoming more competitively priced and technically refined. SLA is excited to pioneer this material renaissance, sharing knowledge and insight to push architecture and design towards a greener future.

Our Collaborators

Our Current Mass Timber Work

Third Ave – Tall Wood mass timber rental housing in Squamish

CHIP + BLOK are projects on neighbouring sites in Squamish, BC. CHIP is a Mass Timber mid-rise residential building containing 20 units with the potential to be 100% rental in Squamish’s downtown zone. The building was designed with a very small footprint to minimise shading on adjacent lots and visual impact from the street and neighbouring buildings. The result is a slender 11-storey building that fits within the permitted 39.6m height allowance. Due to the Squamish downtown flood control level (FCL), the first level has been designed to weather possible fluctuations in water levels by raising the utilities and creating […]

Oceanfront Presentation Centre and Public House

E. 18th – Mass Timber rental and market housing

E. 18th is a striking 6-storey mass timber residential building comprising a diverse mix of 26 rental and market housing units, large outdoor balconies, shared amenity spaces and an activated laneway. The materiality is thoughtfully chosen to blend seamlessly with its surroundings, paying homage to the neighbourhood’s character. A 9-storey and 30 unit design was also developed. Sustainability is at the forefront of the design. Passive sliding shading devices cover the large balconies, providing residents with control over natural lighting and temperature, further enhancing comfort and energy efficiency. Solar PV panels on the roof harness the sun to provide clean, […]

Bowen House – a private mass timber oasis

Nestled on the southwest coast of Bowen Island, this mass timber residence seamlessly blends into its environment of natural bedrock and tall evergreens. The location of the main entry is discreetly hidden with a path leading guests around the rear and opening up at a welcoming entryway, where a stunning framed view of the water awaits. The concept for this residence is thoughtfully catered to a family with a social and vibrant lifestyle. The main double height living area is inviting, showcasing exposed mass timber throughout the interior, complimenting the views towards the ocean, surrounding forest and natural bedrock. This […]

Macaulay Pump Station – oceanfront infrastructure as a park

Located within the Canadian Forces Base (CFB) Esquimalt and next to Macaulay Point Park, the design-build team proposed a design that is contextually sensitive and neighbourly, and challenged the typical strategy of an all-concrete shell by designing an all-wood above-grade structure. Being located within an existing residential neighbourhood and adjacent to a single family home, the odour control and acoustic requirements were very high. The building’s durability and low maintenance were also significant factors in the design. The noise generating equipment was kept 12 m below-grade, encapsulated in the concrete structure, while the above-grade enclosure uses a lighter and […]

Newton Pump Station – increasing community resilience

The Newton Pump Station upgrade included new mechanical, electrical, control and lighting systems located in a mass timber control building that sits atop the below-grade pump station with four all new 300 HP pumps. The project is designed to post-disaster standards. Located in a park and somewhat close to neighbours, the massing is playful and the wood cladding is warm and welcoming while being durable and robust.