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Popular Topics: Mass Timber Fire Tests Sustainability Events

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Design and Construction of Permanent Wood Foundations – The Buildings Show 2025

Course Overview

This session will provide requirements and guidance on the design and construction of permanent wood foundations (PWF) based on the Canadian standard; CSA S406-16 – ‘Specification of permanent wood foundations for housing and small buildings’. Further information on site selection, backfilling, PWF floor systems, air and vapour barriers, insulation techniques, crawl spaces and design requirements for high wind and seismic zones will be discussed. This session will provide attendees with an overview of the design requirements and construction methods for PWF, with a focus on the structural system and building science considerations. 

Learning Objectives

  1. Apply the design requirements of CSA S406-16 for permanent wood foundations in housing and small buildings.
  2. Identify key building-science considerations for PWF systems, including drainage, air and vapour control, insulation, and crawl space design.
  3. Evaluate site and structural requirements for permanent wood foundations in high wind and seismic regions.

Course Video

Speakers Bio

Adam Robertson
Co-founder and Principal
Sustainatree

Adam completed his Bachelor of Applied Science in Civil Engineering at the University of Toronto and also holds a Master of Applied Science degree from the Department of Wood Science at the University of British Columbia. He is the past Chair of the CSA Subcommittee on Permanent Wood Foundations and acted as a primary author and editor during the update and revisions to the Canadian Wood Council’s Permanent Wood Foundations publication. He is the co-founder and principal of Sustainatree Consulting, a small firm specializing in sustainability and engineering design of wood building systems. Prior to opening his own practice, Adam was previously employed by the Canadian Wood Council and has also worked as a consulting structural engineer and within the building development and construction management fields.

Building Success: The Nshwaasnangong Child Care and Family Centre Story

Course Overview

This session will explore the transformative journey of the Nshwaasnangong Child Care & Family Centre, a project that began as a response to the Truth and Reconciliation Commission’s Calls to Action. Led by Two Row Architect and supported by various community partners, the project highlights the innovative use of mass timber to create culturally meaningful and sustainable spaces. Attendees will learn about the collaborative design process, the integration of traditional materials with modern building practices, and the impact of the centre on the local community. The session will also provide insights into accessing technical resources and project support for wood construction through WoodWorks Ontario.

Learning Objectives

  1. Explore the use of mass timber to create culturally meaningful and sustainable spaces, demonstrated through the Nshwaasnangong Child Care & Family Centre.
  2. Understand the collaborative design and prefabrication process, integrating community input, modern construction practices, and workflow planning with mass‑timber manufacturers for complex geometries.

Course Video

Speakers Bio

Matthew Hickey
Architect
Two Row Architect

Matthew Hickey is Mohawk from the Six Nations First Nation and is a licensed architect with 12 years of experience working in an on-reserve architecture firm. He received his Masters of Architecture from the University of Calgary and his Bachelor of Design from Ontario College of Art and Design, winning both the Alberta Association of Architects Presidents Medal and the Medal for Best Thesis, respectively. Mr. Hickey’s focus is on regenerative design – encompassing ecological, cultural, and economic principles. His research includes Indigenous history and the adaptation of traditional sustainable technologies to the modern North American climate. He currently instructs at OCAD U, for the OAA and the Canada Green Building Council.

  • BarrierTEK, fire protectant, Fire Resistance, Fire Safety, ProTEKtor

ProTEKtor II® – Technical Data Sheets

The ProTEKtor II® Technical Data Sheet provides detailed product and performance information for BarrierTEK’s ProTEKtor II® fire-protectant treatment used on wood frame and sheet components. The document is intended for designers, builders, specifiers, and code officials who require clear, concise technical data to support product evaluation and specification.

The TDS outlines key product characteristics, application parameters, and performance attributes for treated wood framing members and sheet goods, including compatibility considerations and relevant fire performance data. It serves as a practical reference for understanding how ProTEKtor II® is applied to enhance fire protection in both exposed and concealed wood-frame assemblies.

Developed as a technical reference, this data sheet supports accurate specification and informed use of ProTEKtor II®, helping project teams integrate fire-protectant-treated wood products into wood-frame construction with confidence and consistency.

  • AtTEK, BarrierTEK, fire protectant, Fire Safety

AtTEK – Fire Protection for Attic Applications

The AtTEK® – Fire Protection for Attic Applications Technical Data Sheet provides detailed product and performance information for BarrierTEK’s AtTEK® fire-protectant treatment used in wood-frame attic assemblies. The document is intended for designers, builders, specifiers, and code officials requiring concise technical data to support product evaluation and specification.

The TDS outlines key product attributes, application parameters, and performance characteristics relevant to attic framing components, including treatment coverage, compatibility with wood products, and applicable fire performance considerations. It serves as a quick-reference resource for understanding how AtTEK® is used to enhance fire protection in concealed roof spaces.

Developed as a technical reference, this data sheet supports accurate specification and informed use of AtTEK® in attic applications, helping project teams integrate fire-protectant-treated wood into wood-frame buildings with clarity and confidence.

  • BarrierTEK, Insurance

Assurance with Insurance

BarrierTEK’s Assurance with Insurance document outlines how the use of BarrierTEK fire-protectant-treated wood products can support risk management and insurance considerations in wood-frame construction. The resource is intended for building owners, developers, designers, and construction professionals seeking greater clarity on how fire performance measures may influence insurability and project risk profiles.

The document discusses the role of fire-protectant treatments in reducing fire risk, with a focus on concealed and exposed wood framing applications. It highlights how enhanced fire performance can align with insurer expectations and loss prevention strategies, helping project teams better understand the relationship between material selection, fire safety, and insurance outcomes.

Developed as an informational reference, Assurance with Insurance supports informed conversations between project stakeholders and insurance providers, offering insight into how proactive fire protection strategies can contribute to improved confidence and resilience in wood-frame buildings.

  • BarrierTEK, fire protectant, Wood Frame Construction

ProTEKtor II® – High Performance Fire Protectant for Wood Frame & Sheet Components

BarrierTEK’s ProTEKtor II® – High Performance Fire Protectant for Wood Frame & Sheet Components document provides technical guidance on the use of ProTEKtor II® fire-retardant treatment for improving fire performance in exposed and concealed wood-frame construction. The resource is intended for architects, engineers, builders, and code officials involved in projects where enhanced fire protection for wood framing and sheathing is required.

The document describes product properties, treatment processes, and performance characteristics of ProTEKtor II® when applied to wood frame members and sheet goods such as plywood and oriented strand board (OSB). It outlines how the treatment supports fire safety objectives by reducing flame spread and contributing to improved fire resistance across a range of wood-frame assemblies.

Developed as a practical technical reference, the ProTEKtor II® document supports informed specification and application of fire-protectant-treated wood products, helping project teams integrate enhanced fire performance into wood-frame buildings while addressing code and design considerations.

  • AtTEK, BarrierTEK, fire protectant, Fire Safety, Wood Frame Construction

AtTEK® – High Performance Fire Protectant for Wood Frame Attic Components

BarrierTEK’s AtTEK® – High Performance Fire Protectant for Wood Frame Attic Components document provides technical information on the use of AtTEK® fire-retardant treatment for enhancing fire performance in concealed wood framing applications. The resource is intended for designers, builders, and code officials involved in wood-frame construction where attic fire protection is a key consideration.

The document outlines product characteristics, treatment methods, and performance attributes of AtTEK® when applied to wood frame attic components, including framing members and assemblies located within concealed roof spaces. It describes how the treatment supports fire safety objectives by slowing flame spread and contributing to improved fire performance in vulnerable areas of wood-frame buildings.

Developed as a technical reference, the AtTEK® document supports informed decision-making during design, specification, and construction, helping project teams understand how fire-protectant-treated wood can be effectively incorporated into attic assemblies to meet project and code requirements.

  • Cross-laminated timber, nordic, X-Lam

Nordic X-Lam Technical Guide

The Nordic X-Lam Technical Guide is a comprehensive technical resource for architects, engineers, and construction professionals designing with cross-laminated timber (CLT) systems from Nordic Structures. The guide provides essential information to support the effective specification and integration of Nordic X-Lam panels in mass timber buildings.

The document details panel properties, structural performance, and typical applications, with guidance on sizing, spans, loading conditions, and connections. It also addresses key design considerations including fire performance, acoustics, vibration, and building code compliance, helping project teams evaluate system suitability across a range of project types.

Developed as a practical design reference, the Nordic X-Lam Technical Guide supports coordinated, efficient project delivery by providing a clear technical framework for incorporating CLT systems into contemporary wood construction.

Offsite Construction Handbook

Course Overview

Offsite construction is transforming the building industry by shifting key processes from traditional sites to controlled factory environments. This approach enhances productivity, quality, and sustainability, addressing challenges like labor shortages and environmental impact. The delivery process emphasizes early collaboration, integrated design, and robust project management to optimize efficiency and risk management. Durability and energy efficiency are achieved through advanced material selection, moisture management, and airtight, highly insulated assemblies. Construction logistics, quality control, and commissioning are tailored for offsite methods, ensuring rapid, reliable project delivery. Life cycle analysis shows offsite construction can reduce embodied carbon and waste, supporting climate goals. Canada’s evolving policies and market trends position offsite construction as a key solution for affordable, sustainable housing. 

Learning Objectives

  1. Understand how offsite construction improves the durability, moisture control, and energy performance of wood building systems.
  2. Identify the structural and sustainability benefits of early design integration in offsite wood construction projects.
  3. Evaluate the role of life-cycle analysis and embodied carbon in positioning offsite wood construction as a solution for sustainable and affordable housing in Canada.

Course Video

Speakers Bio

Dorian Tung
Manager, Technology Assessment
FPInnovations

Dorian Tung is currently the Manager of Technology Assessment at FPInnovations. Prior to this, he worked as a structural consultant in Canada and the US. As a manager, he has been working with scientists on projects related to structure, seismic, durability, energy, fire, acoustic, and vibration. With the evolving ecosystem, Dorian is active in many working groups to facilitate discussions, remove duplicates, accelerate processes, with the goal to maximize impacts for the forest industry NOW using research data. He is also the editor of the Offsite Wood Construction Handbook published by FPInnovations.

Helen Goodland
Principal. Head of Research and Innovation
SCIUS Advisory

Helen Goodland is an architect registered in the UK and has an MBA from the University of BC. Helen is firmly committed to achieving truly sustainable buildings within the next decade. She is also passionate about advancing leadership opportunities for women in construction technology. To this end, she participates on numerous boards and committees. Currently she serves on the Board of Directors of Building Transformations (formerly CanBIM), the BC Digital Advisory Council, the BCIT Mass Timber Education Advisory Board and the University of Victoria’s Green Civil Engineering Advisory Council. She is also past chair of the UN Sustainable Buildings Initiative’s Materials Technical Committee.

Adam Robertson
Co-founder and Principal
Sustainatree

Adam completed his Bachelor of Applied Science in Civil Engineering at the University of Toronto and also holds a Master of Applied Science degree from the Department of Wood Science at the University of British Columbia. He is the past Chair of the CSA Subcommittee on Permanent Wood Foundations and acted as a primary author and editor during the update and revisions to the Canadian Wood Council’s Permanent Wood Foundations publication. He is the co-founder and principal of Sustainatree Consulting, a small firm specializing in sustainability and engineering design of wood building systems. Prior to opening his own practice, Adam was previously employed by the Canadian Wood Council and has also worked as a consulting structural engineer and within the building development and construction management fields.

Offsite Construction in Ontario: A Practical and Diligent Path Forward

Course Overview

From the housing supply deficit to affordability issues and labour challenges, several conditions have been supporting a renewed interest for innovation in construction practices. Offsite construction is often identified as a promising approach to improve the way we build. This session explores the current market characteristics which are conducive to offsite practices, including the consistent shift towards multifamily construction in Ontario. It also identifies the numerous potential benefits of shifting the construction process from site to factory. The speakers will discuss underlying assumptions and conditions and questions such as: Are the promised benefits tangible and quantifiable? Do savings actually reach a project’s bottom line? Do all of the benefits apply to specific applications? 

Learning Objectives

  1. Identify market, labour, and housing conditions in Ontario that are driving interest in offsite and wood-based construction systems.
  2. Evaluate the practical benefits and limitations of offsite construction using mass timber and panelized wood systems.
  3. Assess when offsite construction provides measurable value at the project level, including cost, schedule, quality, and risk considerations.

Course Video

Speakers Bio

Mike Schmidt
President
Auto Construct Incorporated

A Tool & Die Maker with a Masters’ Degree in Business Administration, Mike understands manufacturing from the ground up. He spent his formative years as an executive in the automotive industry; working for world-class, multinational corporations such as Magna International and ArcelorMittal. In 2017, Mike established Auto Construct Incorporated (ACI), a management consulting firm, to accelerate the industrialization of residential construction. Specializing in the conversion from stick-built to offsite construction, Mike has led and facilitated the growth of several companies to become dominant players in their respective fields. ACI provides education, guidance, and implementation support in the areas of business development, manufacturing systems, technology selection, and factory start-ups. ACI serves a broad range of land developers, construction firms, homebuilders, and manufacturing companies throughout Canada and the United States.

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

  1. Identify key moisture risks specific to mass timber construction and understand how they differ from traditional structural systems.
  2. Apply practical construction-phase moisture protection strategies that align with project sequencing, site conditions, and contractor workflows.
  3. 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.

Halsa 230 Royal York: Ontario’s Tallest Mass Timber Residential Building

Course Overview

Halsa 230 Royal York is setting new standards as Toronto’s pioneering 9-storey prefabricated mass timber rental building, demonstrating the viability of carbon-neutral communities within Toronto’s Right of Way zoning. Through a case study of the building, this session will present the advantages of integrated design and prefabricated mass timber building systems components.

Learning Objectives

  1. Explain the integrated design and prefabrication strategies used in mass timber residential construction: Learners will be able to describe how collaborative design, advanced manufacturing, and prefabricated building systems contribute to project efficiency, quality, and scalability.
  2. Analyze the technical features and performance benefits of mass timber floor cassettes and curtain wall systems: Learners will understand the structural, acoustic, fire resistance, and thermal properties of the building’s mass timber components, and how these features address common challenges in high-rise construction.
  3. Evaluate the sustainability, regulatory, and operational considerations in developing carbon-neutral mass timber buildings: Learners will assess how material sourcing, certification, lifecycle carbon analysis, and code compliance shape the viability and impact of mass timber projects in urban environments.

Course Video

Speakers Bio

Oliver Lang
Co-Founder, Chief Product Officer, Intelligent City
Co-Founder, Principal, LWPAC

Oliver Lang is a German-Canadian architect and urban entrepreneur with 25+ years of experience and a recognized leader in design innovation and integration of complex urban projects, mixed-use housing, advanced prefabrication, and green building strategies. He is a graduate of Columbia University’s Graduate School of Architecture Planning and Preservation, with a Master of Science in Advanced Architectural Design, and he holds a professional degree (Diplom-Ingenieur Architektur) from the University of Technology Berlin with two-year studies at the ETSA Barcelona UPC. Prior to founding LWPAC in 1998, Oliver researched and practiced in digitally assisted design and fabrication with Smith-Miller & Hawkinson in New York, while teaching digital design at Princeton University, Columbia University, and University of Pennsylvania. He subsequently has taught advanced design and digital technology at SCI_ARC, the Berlage Institute, TU Berlin, UTF Santa Maria, and University of British Columbia (UBC).

Shawn Keyes
VP – Strategic Growth and Business Development
Intelligent City

Shawn is a structural engineer and commercial executive with more than a decade of experience leading innovation in mass timber and industrialized construction. As Vice President of Strategic Growth at Intelligent City, he leads commercialization, market strategy, and partnerships to scale the company’s prefabricated housing systems. Previously, Shawn served as Executive Director of WoodWorks BC, where he led a strategic transformation that strengthened partnerships, technical leadership, and influence across the development, AEC, and policy sectors. Before that, he spent over six years at Fast + Epp as a Senior Structural Engineer, developing deep technical expertise. Over his career, Shawn has supported more than 150 mass timber and hybrid projects across Canada, and has served on advisory councils for BC Housing, BCIT, the BC Office of Mass Timber Implementation, Forestry Innovation Investment, and Natural Resources Canada. He holds an MBA from UBC Sauder, a Master of Engineering from Carleton University, and is a licensed Professional Engineer in BC and Ontario.

Design and Construction of Permanent Wood Foundations – The Buildings Show 2025
Building Success: The Nshwaasnangong Child Care and Family Centre Story
ProTEKtor II® – Technical Data Sheets
AtTEK – Fire Protection for Attic Applications
Assurance with Insurance
ProTEKtor II® – High Performance Fire Protectant for Wood Frame & Sheet Components
AtTEK® – High Performance Fire Protectant for Wood Frame Attic Components
Nordic X-Lam Technical Guide
Offsite Construction Handbook
Offsite Construction in Ontario: A Practical and Diligent Path Forward
Construction Moisture Management of Mass Timber Buildings
Halsa 230 Royal York: Ontario’s Tallest Mass Timber Residential Building

Design and Construction of Permanent Wood Foundations – The Buildings Show 2025

Course Overview This session will provide requirements and guidance on the design and construction of permanent wood foundations (PWF) based on the Canadian standard; CSA...

Building Success: The Nshwaasnangong Child Care and Family Centre Story

Course Overview This session will explore the transformative journey of the Nshwaasnangong Child Care & Family Centre, a project that began as a response to the...

ProTEKtor II® – Technical Data Sheets

The ProTEKtor II® Technical Data Sheet provides detailed product and performance information for BarrierTEK’s ProTEKtor II® fire-protectant treatment used on wood frame...

AtTEK – Fire Protection for Attic Applications

The AtTEK® – Fire Protection for Attic Applications Technical Data Sheet provides detailed product and performance information for BarrierTEK’s AtTEK® fire-protectant...

Assurance with Insurance

BarrierTEK’s Assurance with Insurance document outlines how the use of BarrierTEK fire-protectant-treated wood products can support risk management and insurance...

ProTEKtor II® – High Performance Fire Protectant for Wood Frame & Sheet Components

BarrierTEK’s ProTEKtor II® – High Performance Fire Protectant for Wood Frame & Sheet Components document provides technical guidance on the use of ProTEKtor II®...

AtTEK® – High Performance Fire Protectant for Wood Frame Attic Components

BarrierTEK’s AtTEK® – High Performance Fire Protectant for Wood Frame Attic Components document provides technical information on the use of AtTEK® fire-retardant...

Nordic X-Lam Technical Guide

The Nordic X-Lam Technical Guide is a comprehensive technical resource for architects, engineers, and construction professionals designing with cross-laminated timber (CLT)...

Offsite Construction Handbook

Course Overview Offsite construction is transforming the building industry by shifting key processes from traditional sites to controlled factory environments. This approach...

Offsite Construction in Ontario: A Practical and Diligent Path Forward

Course Overview From the housing supply deficit to affordability issues and labour challenges, several conditions have been supporting a renewed interest for innovation in...

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...

Halsa 230 Royal York: Ontario’s Tallest Mass Timber Residential Building

Course Overview Halsa 230 Royal York is setting new standards as Toronto’s pioneering 9-storey prefabricated mass timber rental building, demonstrating the viability of...

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