Construction Moisture Management of Mass Timber Buildings
Course Overview Mass timber buildings are transforming the way we build—but with new materials come new challenges. This session will explore how moisture risks in mass timber construction and how to take a proactive approach to moisture management. Participants will gain practical insights into effective protection strategies during the construction phase and learn how to develop a tailored moisture management plan to safeguard both the mass timber structure and project timelines. Learning Objectives Identify key moisture risks specific to mass timber construction and understand how they differ from traditional structural systems. Apply practical construction-phase moisture protection strategies that align with project sequencing, site conditions, and contractor workflows. Develop or evaluate a project-specific moisture management plan to protect mass timber elements, reduce delays, and ensure long-term durability. Course Video Speakers Bio David Stanton Associate, Senior Engineer – Building Enclosure RDH Building Science Inc. David is an Associate and Senior Building Science Engineer in RDH Building Science’s Toronto office. David’s exposure to mass timber projects started with the Brock Commons project in BC as a coop student and then with the Catalyst building in Spokane, WA—a 4-storey mass timber building for Eastern Washington University—when he started working full-time in the Building Science field. Since moving back to Toronto, David has continued to work on large scale mass timber projects, including the Lawson Center for Sustainability and the Academic Wood Tower projects at UofT. Sean Carroll Senior Superintendent Graham Construction Sean Carroll is a Senior Superintendent with Graham Construction, bringing over 32 years of experience across Canada, Europe, and the UK. A civil engineer and journeyman carpenter, Sean has led complex projects in the commercial, residential, pharmaceutical, and educational sectors—including several involving advanced Mass Timber construction. Over his 11 years with Graham, split between Alberta and Ontario, Sean has been at the forefront of integrating sustainable building methods, particularly in the use of engineered timber systems. He brings a deep understanding of Mass Timber coordination, sequencing, and tolerances, along with a strong commitment to safety, quality, and team leadership. Known for his hands-on approach and global perspective, Sean combines technical precision with a collaborative leadership style—driving successful project outcomes from concept through completion. Natasha Jeremic Manager, Codes and Standards – Sustainability Canadian Wood Council Natasha Jeremic is a Professional Engineer in the building industry, with a background in design, building performance, and project management. She is currently the Sustainability Manager for Codes and Standards at the Canadian Wood Council, where she leads strategic initiatives focused on low-carbon construction, energy efficiency, durability, and circularity. Natasha leverages her expertise in structural design, building envelope consulting, and whole life carbon accounting to showcase how wood products contribute to a sustainable, low-carbon built environment. She is passionate about raising awareness of wood’s role as a viable solution in advancing climate-conscious construction.
Mass Timber Economics: Why One Line Item Doesn’t Tell the Whole Story
Course Overview Mass timber buildings are often perceived as premium projects, but assumptions based on a single cost line can be misleading. This session explores the complexities of costing mass timber construction and highlights why a holistic, team-based approach is essential from the earliest stages of design. Attendees will gain insights into common pitfalls for cost consultants and learn how early architectural decisions such as grid spacing and aesthetic goals can significantly influence both cost and structural efficiency. The speakers will emphasize the importance of clear project objectives when setting the initial budget and outline best practices for cost predictability, including robust scope management, design reviews, and obtaining competitive bids from multiple timber suppliers. The session will also examine the role of architects in informing cost decisions, strategies for improved procurement and scheduling, and how to leverage mass timber’s expedited on-site phase. Learning Objectives Understand the complexities of mass timber costing: Participants will be able to explain why relying on a single cost line item is misleading and identify key factors—such as grid spacing and aesthetic goals—that influence overall project cost and structural efficiency. Apply best practices for cost predictability in mass timber projects: Learners will be able to outline strategies for achieving accurate budgets, including robust scope management, design reviews, and obtaining competitive bids from multiple timber suppliers. Recognize the role of collaboration in successful mass timber delivery: Attendees will be able to describe how architects, developers, and contractors can work together from early design stages to improve procurement, scheduling, and leverage mass timber’s expedited on-site phase. Course Video Speakers Bio Marlon Bray Executive Vice President Clark Construction Management Inc. Mass timber buildings are often perceived as premium projects, but assumptions based on a single cost line can be misleading. This session explores the complexities of costing mass timber construction and highlights why a holistic, team-based approach is essential from the earliest stages of design. Attendees will gain insights into common pitfalls for cost consultants and learn how early architectural decisions such as grid spacing and aesthetic goals can significantly influence both cost and structural efficiency. The speakers will emphasize the importance of clear project objectives when setting the initial budget and outline best practices for cost predictability, including robust scope management, design reviews, and obtaining competitive bids from multiple timber suppliers. The session will also examine the role of architects in informing cost decisions, strategies for improved procurement and scheduling, and how to leverage mass timber’s expedited on-site phase. Mathieu Fleury Partner Leader Lane Developments Mathieu combines a merchant developer mentality with institutional discipline to drive Leader Lane Developments’ ambitious urban projects. He holds a Masters in Real Estate Finance from The University of Cambridge and has over 15 years of experience with industry leaders, including Loblaw Properties Limited, Great Gulf, and Dream Unlimited. Over the course of his career, Mathieu has shaped over 15,000 residential units and 7 million square feet of development across Canada. With his entrepreneurial spirit and analytical mindset, he steers Leader Lane’s growth in Toronto’s dynamic mid-rise sector. Mathieu’s strategic leadership ensures each project balances innovation with strong financial performance, delivering communities that enhance the urban experience while maximizing investor value. Jonathan King Principal BNKC Architects Inc. An architect and design leader with nearly 30 years of experience, Jonathan has worked across the full spectrum of residential, institutional, and cultural projects across Canada—from university buildings and theatres to large-scale multi-residential developments. He’s led teams at firms such as Diamond and Schmitt, HOK, and Core Architects, and is now a Principal at BNKC, where he helps steer complex projects from early concept through to completion. Jonathan’s recent work has included multiple mid- and high-rise residential and commercial buildings that integrate new construction technologies—including hybrid and mass timber structures—within tight urban contexts. His background brings a deep understanding of how codes, construction logistics, and market realities shape design decisions. He’s particularly interested in how architects can help unlock the potential of mass timber by working more collaboratively with clients, engineers, and municipalities to address the barriers standing.
Design Best Practices for Mid-Rise Light Wood Frame Structures
Course Overview Light wood frame (LWF) construction is an accessible, cost-effective, low-carbon solution for mid-rise multi-family buildings. This session will clarify fundamental differences in approach between traditional low-rise LWF construction and modern mid-rise construction methods. LWF is an attractive option for mid-rise development and participants will gain practical insights into design efficiencies, from meeting seismic demands and other key structural considerations to how engineered wood products and specialty hardware can be used to optimize design. The session will also explore prefabrication strategies, highlighting the challenges and opportunities offsite construction presents for streamlined, higher-quality construction. Whether attendees are new to mid-rise wood design or looking to optimize their next project, this session will share valuable information they can apply to their next mid-rise building. Learning Objectives Distinguish key differences between traditional low-rise and modern mid-rise light wood frame construction, including changes in design loads, seismic requirements, and code updates. Apply practical design strategies to optimize mid-rise wood structures—such as efficient stacked framing, engineered wood products, specialty hardware, and solutions for wood shrinkage and differential movement. Evaluate prefabrication and offsite construction methods for mid-rise projects, identifying both challenges and opportunities to improve construction quality, speed, and coordination. Course Video Speakers Bio Sean Henry Director – Mid-Rise, Principal Tacoma Engineers Sean is the Director of Mid-Rise and a Principal at Tacoma Engineers, bringing 20 years of structural engineering experience to the role. Since joining the firm in 2005, Sean has led the design of a wide range of building types, with a particular focus on mid-rise developments including multi-family, seniors and affordable housing projects. He is especially recognized for his expertise in light wood frame construction with multiple projects designed and built since the adoption of 6 storey wood framed buildings in Ontario. He also has extensive experience with cold-formed steel, structural steel, reinforced concrete, precast, and concrete block building systems. Sean focuses on delivering practical, efficient structural solutions that support design intent while meeting the demands of constructability and cost-effectiveness.
Benefits of Building with Mass Timber
Course Overview Building with mass-timber elements affords a contractor many benefits including quality, accuracy and time. But contractors are often unaware of these benefits until immersed in a new project. With the conversion experience had by Willmott Dixon the company advanced its skills has served to inform their clients and the designers with whom they work. Learning Objectives How a large construction company – transitioned to include mass timber projects in its portfolio. How to evaluate key business considerations — cost, time, environment. How building with mass timber can change the construction planning process — engaging with design teams and clients. How mass-timber projects came to fruition. Course Video Speaker Bio Duncan Purvis With nearly a quarter of a century of experience in the construction industry in operational, commercial, sales, bid writing, marketing and most aspects of the delivery of complex construction projects and offers a 100% customer journey that is built on true trust. With many construction projects from Four Seasons Miami, Natural History Museum London, Pfizer’s European headquarters and many more high-prestige projects. Duncan is proudest of the Multiple Schools projects, that with his Structured Timber Solution, are providing high quality teaching environments that are not only fully sustainable and highly efficient, but also work out as some of the most economical teaching spaces available in Europe.
Advancing North American Mass Timber Projects: Harnessing the Strength of Local Expertise
Course Overview As global adoption of mass timber construction accelerates, a growing number of solutions are available in the marketplace that can contribute to the success of your project. This session, presented by Simpson Strong-Tie, will explore some of the unique challenges faced by North American projects and some of the domestically developed solutions available to meet those challenges. Learning Objectives Understand the need for greater tolerance on concealed beam hangers, the importance of ensuring connectors are easy to install, and the specific requirements for large elements in North American buildings. Understand the advantages domestic suppliers can bring to your project, including the rapid delivery of hardware to job sites. Learn about the necessity for effective installation tools and processes tailored to the scale of large North American projects. Learn about the need for effective moisture mitigation and the systems and strategies that can prevent unnecessary exposure of mass timber to the elements during construction. Course Video Speaker Bio Adrian Mitchell Chair of Simpson’s internal Mass Timber Focus Market Committee Simpson Strong-Tie Adrian is a mass timber and off-site business specialist with a principal focus on the rapidly expanding mass timber segment, for which he serves as Chair of Simpson’s internal Mass Timber Focus Market Committee. Adrian has spent the bulk of his 20-year career in the off-site, mass timber, and modular spaces, primarily as a business development leader and private consultant. With professional experiences ranging from heavy civil, oil and gas, high-end custom homes to large-scale mass timber missed-use projects and artificial intelligence in BIM, he has a unique and well-rounded background in wood and steel applications in off-site construction. Adrian is a native of Vancouver, Canada, and a graduate of the British Columbia Institute of Technology’s School of Business, he enjoys all the typical Canadian pastimes like playing hockey, building things from wood, and mountain biking.
