Canadian Wood Council Applauds Nova Scotia’s Prioritization of Wood Products for Construction and Heating in Public Buildings
OTTAWA, ON, 18 July 2025 – The Canadian Wood Council (CWC) applauds the Province of Nova Scotia’s recent announcement regarding the prioritization of wood products for construction and heating in public buildings – a strategic move that supports economic growth, climate resilience, and innovation in the province’s forestry sector.
By committing to mass timber and other solid wood products for construction, alongside the use of wood pellets, biomass, and other products made from forest residuals for heat and energy, Nova Scotia is taking a leadership approach to development that aligns environmental stewardship with economic opportunity.
This initiative reinforces the principles of a circular economy built on sustainable forest management. This comprehensive approach to fibre utilization ensures the province is maximizing the value of harvested wood and reducing waste while simultaneously supporting jobs, stimulating rural economies, and strengthening local and regional supply chains across the forestry and construction sectors.
“This commitment from the province of Nova Scotia not only supports local forestry and bioeconomy innovation, but also delivers practical solutions to reduce emissions, improve energy security, and build with a lighter carbon footprint,” says Rick Jeffery, President & CEO of the Canadian Wood Council. It’s a smart and timely commitment to sustainability that will strengthen local industries while advancing practical, low-carbon building solutions.”
Tall wood buildings offer tremendous potential for low-carbon, high-performance construction, but they also introduce a distinct set of challenges not typically encountered in conventional approaches. Design teams new to this form of construction may be unfamiliar with the systematic approach needed to enhance affordability and efficiency in these buildings.
Within the spectrum of structural solutions for mass timber, point-supported CLT is a compelling option for tall building applications. Teams must understand how to harness its unique benefits and navigate its limitations to unlock its full potential. When applied effectively, point-supported approaches can improve efficiency, reduce material usage, and unlock new pathways to cost-competitive tall timber construction.
Setting a new standard in Canada’s tallest mass timber structure, Soprema Insonomat system provided an ideal balance of sustainability, safety, and superior sound insulation.
AcoustiTECH’s innovative and effective acoustic solutions made New York’s first mass timber residential project a triumph of modern design and sound comfort. Discover how the AcoustiTECH Lead 6 and AcoustiTECH SOFIX system harmonized natural aesthetics with high acoustic performance.
CWC, Mass Timber, Ontario, Ontario Construction, Prefabricated Components, Wood Construction
Canadian Wood Council Supports Ontario’s Advanced Wood Construction Action Plan
KITCHENER, ON — The Canadian Wood Council (CWC) was proud to participate in a significant announcement by the Government of Ontario yesterday, where the Honourable Mike Harris, Minister of Natural Resources, and the Honourable Kevin Holland, Associate Minister of Forestry and Forest Products, launched Ontario’s Advanced Wood Construction Action Plan.
The Action Plan outlines a strong, strategic commitment to advancing the use of mass timber and prefabricated wood systems—technologies that can deliver high-performance buildings while supporting job creation and investment across Ontario’s forestry, manufacturing, and construction sectors.
As the national association representing manufacturers of Canadian wood products, CWC welcomes this important step forward. Through its technical resource program, WoodWorks, the Council is committed to supporting the growth of advanced wood construction by providing guidance, education, and project support to professionals across the building sector.
“This is about solving today’s challenges while laying the groundwork for long-term economic growth—with industrialized wood construction driving that transformation forward,” said Steven Street, Executive Director of WoodWorks Ontario.
The Action Plan includes investments in research, education, training, and manufacturing, positioning Ontario as a leader in low-carbon, efficient, and sustainable construction. CWC applauds the province’s leadership and looks forward to continuing its collaboration with public and private partners to advance the adoption of made-in-Ontario wood solutions.
Mass Timber Course of Construction Insurance Project Questionnaire + Checklist
Who can use this document: Contractors, Developers, Owners and Design Teams.
How to use this document: This document is an editable form that teams can fill out to aid in collecting mass timber project-specific information to share with their insurance team.
When to use this document: A project team should engage a broker or underwriter as early as possible in the planning stages of a construction project, ideally during the initial design phase or when the project scope is being defined.
How will this help me: The goal is to provide project-specific information about mass timber, pre-emptively addressing some of the common questions and concerns insurers may have to pave the way for a more efficient and informed process when working with your broker or underwriter. Keep in mind that this document is not intended to address all topics nor be a universally accepted form that provides all necessary information to insurers.
Webinar: Understanding Glulam: The structural and architectural capabilities of mass timber
Brampton – Simpson Strong-Tie Workshop
This workshop covers wood construction connectors, design apps, mass timber connectors, mass timber fasteners, structural screws, and anchor systems, with demonstrations on hanger testing, fastener installation, and anchor installation and testing.
Mass Timber, Structural Engineering, Structural Wood, Wood Construction
Mass timber construction offers speed, sustainability, and design flexibility – but it also requires a higher level of coordination than traditional structural systems. Its prefabricated components and tight tolerances call for early planning, clear communication, and a shared understanding across the project team. Ensuring that all partners – including those less familiar with timber construction – are aligned on these unique requirements helps avoid costly delays and, more importantly, positions the team to fully capitalize on the benefits mass timber has to offer.
Case Study, Mass Timber, Wood Construction, WoodWorks
Exploring the Role of Mass Timber – Industrial Buildings and Warehouse Construction
The emerging use of mass timber in industrial buildings presents promising opportunities that are shaping the future of construction in this sector. As a sustainable and economically competitive alternative, mass timber is redefining industrial construction, a field traditionally dominated by prefabricated steel. An analysis of two cutting-edge projects in Sudbury, Ontario, highlights key advantages, including cost competitiveness, reduced embodied carbon, and aesthetic appeal. The insights from these two projects present stakeholders with helpful considerations and valuable strategies for integrating mass timber into future developments.
Mass Timber, Structural Engineering, Sustainable Design, Wood Construction, Wood Design
In Kelowna, British Columbia’s evolving industrial north end, The Exchange stands as a forward-thinking demonstration of what’s possible when architectural ambition meets technical precision. Designed and developed by Faction Architecture and Faction Projects, the building blends mass timber with conventional materials in a hybrid system that highlights both structural performance and environmental responsibility.
At the heart of the structural system is nail-laminated timber (NLT), used for both floor and roof assemblies. NLT is a mass timber product formed by mechanically fastening dimensional lumber together to create solid panels—an approach well-suited to exposed timber applications that value durability, texture, and straightforward fabrication. For this project, the team fabricated the panels in-house using locally sourced materials and trades. While this gave them greater control over cost and scheduling, it also introduced design and compliance challenges.
The team opted for a fluted NLT profile to enhance visual appeal and improve acoustic performance. Because the panel design differed from prescriptive norms, it required approval as an alternative solution under the BC Building Code. Extensive analysis was conducted to demonstrate compliance with fire-resistance, vibration, and load-bearing requirements. Informed by existing NLT fire test data, the design team minimized voids between laminations to enhance charring behaviour and performed physical load testing at Okanagan College to confirm strength and stiffness performance.
Complementing the NLT panels is a glulam post-and-beam system that forms the substructure, supported by concrete elevator and stair cores. Together, these elements support a program that includes retail and light industrial space at grade, with two to three storeys of open-plan office space above. A rooftop patio offers sweeping views, reinforcing the project’s appeal to creative businesses and environmentally conscious tenants.
The Exchange also showcases a thoughtful approach to the building envelope, a key factor in achieving Step 3 of the BC Energy Step Code—the highest step currently applicable to non-residential buildings in the region. The high-performance envelope includes a combination of weathering steel and corrugated metal cladding, high-performance glass windows, semi-rigid exterior insulation, breathable weather barrier, plywood sheathing, lumber studs, batt insulation, gypsum board and a polyethylene vapour barrier. The light-frame wood walls contribute to envelope performance in two important ways: 1) wood has lower thermal conductivity than other materials, so thermal bridging is dramatically reduced, and 2) the stud wall configuration allowed for thicker insulation in the cavities between studs.
This integrated approach—combining exposed timber construction, envelope efficiency, and locally supported fabrication—enabled the project team to deliver a space that performs as well technically as it does aesthetically. And with over 90% of the leasable area spoken for at completion, it’s clear that tenants are responding to both the look and the logic of the building.
The Exchange sets a precedent for accessible mass timber construction in smaller markets, particularly in contexts where a streamlined fabrication process and strong design-control loop can help close the gap between sustainable ambition and budgetary constraints.
As Faction Projects continues work on the remaining phases of the development, The Exchange stands as both a technical prototype and a commercial success—proof that high-performance, low-carbon construction can be as practical as it is inspiring.
Buildings that stand the test of time aren’t just durable—they are cherished. When we invest in quality materials and good design, we can create buildings that people connect with. As you’ll discover in this issue, many heavy timber warehouses and factories constructed in the early 1900s remain a vital part of our cities today—not because they still serve their original purpose, but because people valued them enough to adapt, restore, and reuse them, giving them a new purpose.
Fast forward a hundred years and resilient structures include many new forms. Modular construction, for example, has seen significant growth in recent years as this form of construction has transformed from a building method once considered inferior, into a method relied upon to deliver high-performance durable buildings.
Alongside our features on historic timber buildings and modular construction, this issue also highlights notable projects and emerging trends shaping today’s built environment. From innovative mass timber structures to forward-thinking design solutions, we explore how thoughtful craftsmanship and smart engineering continue to define the spaces we build—and the ones we keep.
Diversify Your Structural Portfolio: Wood in Low-Rise Commercial Construction
Design Guide for Timber Concrete Composite Floors
CLT classrooms: A pilot project in Washington State
Benefits of Building with Mass Timber
Architectural Assemblies Simplified: Understanding Structural Grids – Acoustics – and Envelopes in Wood Buildings
Advancing North American Mass Timber Projects: Harnessing the Strength of Local Expertise
A Zero Carbon Hybrid Wood Supertall Future
Delivering Mid-Rise Housing Solutions – Part 2 Mass Timber
Course Overview This presentation defines Acoustic building code requirements and discusses important acoustic principles in mass timber construction. Learning Objectives...
Course Overview This 2-hour technical webinar will begin with an overview of ongoing fire research at the National Research Council of Canada into various performance aspects...
Course Overview Mass timber has garnered a lot of interest in Ontario in recent years and with the recent adoption of the encapsulated mass timber construction requirements...
Course Overview The Sara Cultural Centre broadens the application of a full timber construction and proves that timber is a viable solution for virtually any building type....
Course Overview As society strives toward lower-carbon construction and increased operational efficiency of the built environment, we know that a building’s envelope...
Course Overview FPInnovations’s Modeling Guide for Timber Structures is the result of global collaboration from over 100 experts. This definitive guide for timber structure...
Course Overview In 2021, YW of Kitchener-Waterloo (YWKW) obtained funding from the federal Rapid Housing Initiative (RHI) to construct supportive housing for homeless women...
Course Overview The presentation will provide an overview of the Mass Timber Demonstration Fire Tests which were conducted during the summer and fall of 2022. Past research...
Course Overview 55 Franklin in Kitchener, Ontario, is a four-building complex of mid-rise residential buildings that the project team is using as an opportunity to explore...
Course Overview This 2-hour technical webinar will begin with an overview of ongoing fire research at the National Research Council of Canada into various performance aspects...
Course Overview This session will present a vision and business case for innovation, sustainability, and affordability for the tallest residential wood tower in the world...
Course Overview Delivering superior acoustic comfort to building occupants doesn’t have to be complicated. In this panel discussion, presented by an industry-leading...
