Durability by design is all in the detail. It is the detail, an aspect of wood design which is sometimes overlooked, that determines the durability of a building’s exterior, especially when wood is exposed to the elements. Knowing what happens to the wood when exposed to moisture or the sun’s UV rays and applying that information, results in a design that stands the test of time. Bill Billups’ presentation will include illustrated examples of what happens when design principles of durability are ignored.
Learning Objectives
The participant will look at four design elements of wood structures: Canopies, Eave Lines, Siding and Caps & Bases.
Examples will show what does / does not work and through these examples the presenter will show how Durability by Design is in the details.
The participant will learn where the water goes and how nature teaches us how to handle the sun.
They will come away with a Durability check list they can apply to any design they are working on.
Course Video
Speaker Bio
Bill Billups, AScT Technical Consultant Wood WORKS! BC
CLT Firewalls
Course Overview
Fire performances of CLT fire separations with closure (door) or service (pipe) penetrations will be discussed.
Learning Objectives
Beyond the introduction of a new, 18 storey limit, you will:
Basic CLT fire separation performance.
CLT‐penetration interface design principles.
Testing of a CLT wall with a fire door.
Testing of a CLT floor with pipe penetrations.
Course Video
Speaker Bio
Conroy Lum Research Leader – Advanced Building Systems FPInnovations
Conroy is a structural engineer by training and oversees the work of the research groups on structural performance, durability, and sustainability in the Advanced Building Systems department of FPInnovations. His research contributions have been in the areas of developing methods for evaluating wood products and structural adhesives, and implementing such methods in standards to support product development and manufacturing.
Mass Timber: Unlocking the Mysteries of Connection Design and Fabrication
Course Overview
Melissa will discuss the role of the specialty structural engineer in glulam connection design for your project. Tips will be provided to help streamline the work of the project architect and engineer of record, and also highlight specific detailing situations to help construction run more smoothly. Glulam fabrication will be discussed: from chisels to CNC machines. Some examples will be given to see what is possible during this timber connection renaissance, made possible by 3D fabrication models and CNC machines.
Learning Objectives
Mass timber fabrication processes and the role of shop drawings.
Detailing to accommodate for differing tolerances of different trades on the construction site.
Tailoring timber specifications to meet architectural needs.
Information required in construction documents for delegated design of mass timber connections.
New timber connection possibilities through use of CNC Fabrication.
How to communicate scope delineation for multiple suppliers of structural systems on your
project and where are the potential gaps / overlaps.
How involving your mass timber supplier early in the design process can create material and construction efficiencies.
Course Video
Speaker Bio
Melissa Kindratsky, P.Eng., LEED® AP BD+C Structural Project Engineer ISL Engineering and Land Services
Melissa Kindratsky, P.Eng., LEED® AP BD+C, is a structural project engineer for ISL Engineering and Land Services. With 400 people in 14 offices in western Canada, ISL established a Buildings Group in 2012 with the acquisition of Cascade Engineering Group, and Melissa joined the growing team in the Canmore office in 2015.
Melissa supports the successful delivery of building engineering to a range of clients, from independent homes owners to internationally renowned architects, timber framers, and mass timber fabricators. With over 15 years of experience in design engineering and construction, Melissa has experience in commercial, residential, and industrial developments of various shapes and sizes. Her material of choice is timber and she focuses most of her time on both concept and detailed design of timber structures. These range from modern developments to repairs of heritage structures and even playgrounds.
She passionately believes that to engineer a structure in wood, one must respect the unique properties of this natural material and even use them to enhance the design, both structurally and architecturally. Close attention is paid to the contribution of the structure to the sustainability features of a building project and these are even more easily achieved when the structure is timber.
Shifting Gears: World’s First Passivehouse Auto Dealership
Course Overview
Building a wood frame Car Dealership is a unique proposition to begin with. Making it a Certified Passivehouse building in cold windy Red Deer is an added level of complexity. Scottsville Autogroup, along with Cover Architectural Collaborative and Peel Passivehouse was up for the challenge. Now nearing completion, the project will set a new bar for energy efficient and sustainable construction in the industrial sector. The project shows that manufactured wood products are not only capable but preferable when designing sustainable buildings. The use of wood not only significantly reduces the embodied energy of the structure, but allows for thermal bridge free construction – a critical consideration when building a super-efficient envelope.
Learning Objectives
How to achieve tall, long span structures using dimensional and engineered wood products.
How to design thermal bridge free envelopes.
How to achieve Passivehouse certification in a cold climate with significant storefront glazing.
How to account for process loads in PHPP calculations.
Course Video
Speaker Bio
Lukas Armstrong Architect and Principal Cover Architectural Collborative
Lukas Armstrong, as an Architect and Principal at Cover Architectural Collborative in Nelson BC, has been responsible for some of Canada’s first Certified Passivehouse projects, including his own home in a multifamily residential building. Lukas has presented at the New York and Vancouver Passivehouse conferences and provides an engaging and informative window into wood frame Passivehouse design and construction.
Demystifying Acoustics for All Wood Buildings
Course Overview
This presentation defines Acoustic building code requirements and discusses important acoustic principles in mass timber construction.
Learning Objectives
Acoustic complaints & Law Suits.
Customer negative perception of your building (ex; wood frame vs concrete).
Code regulations (ex; need to reduce weight, acoustic requirements, etc.).
Abundance of possibilities and unclear information.
Course Video
Speaker Bio
André Rioux Co-Owner/Business Development AcoustiTECH
André has been working alongside building professionals for more than 15 years and is recognized for his passion for the field of acoustics and his expert knowledge.
Promoting wood construction across Canada and the US has been a great focus of his, participating in various organizations, giving conferences and joining innovation projects.
André’s experience with wood construction combined with over 20 years of research and development from AcoustiTECH has resulted in a group being able to bring invaluable expertise and knowhow.
Guide to Encapsulated Mass Timber Construction in the Ontario Building Code
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 of mass timber construction and tall wood buildings. From there, code experts from Morrison Hershfield will discuss the new building code provisions related to Encapsulated Mass Timber Construction (EMTC), which is a new construction type in the code, that permit mass timber structures up to twelve storeys in building height. Participants will receive a complimentary electronic copy of the CWC’s recently published “Guide to Encapsulated Mass Timber Construction in the Ontario Building Code” authored by Morrison Hershfield.
Learning Objectives
An overview of the Ottawa Mass Timber Demonstration Fire Tests:
The presentation will provide an overview of the Mass Timber Demonstration Fire Test Project which were conducted during the summer and fall of 2022. Past research on the fire performance of mass timber construction will be reviewed briefly to provide the background necessary to understand how the latest tests support the design of taller and larger mass timber buildings. Each of the five tests performed will be reviewed along with what it means for future mass timber building design.
Guide to Encapsulated Mass Timber Construction in the Ontario Building Code:
Encapsulated mass timber construction (EMTC) showcases recent advancements in fire safety engineering. These advancements are reflected in recent adoptions of EMTC as a new construction type across various jurisdictions and specifically in Ontario, through O.Reg. 451/22, which became applicable as of July 1, 2022. This presentation introduces designers and authorities to the “Guide to Encapsulated Mass Timber Construction in the Ontario Building Code.”
The purpose of the guide, and this presentation, is to introduce users to the new provisions governing EMTC in Ontario, so that readers are aware of the content, intent, and application of the new provisions. The guide introduces the new provisions and highlights where new EMTC features align with similar well-known provisions of the OBC for noncombustible construction and where the new provisions differ or are unique. Through highlighting these differences, this guide seeks to broaden awareness of OBC application to the design of this new building type.
Course Video
Speaker Bio
Marc Alam Senior Manager, Codes & Standards – Fire & Acoustics Canadian Wood Council
As Senior Manager of Codes and Standards in fire and acoustics, Marc participates in CWC’s building code and standards fire and acoustics related initiatives and the development of CWC’s fire design tools, as well as code‐related fire and acoustics research projects. He is finalising a PhD in Fire Engineering from Carleton and has a Bachelor’s degree in Civil Engineering with a concentration in Management.
Dana Scherf, P.Eng. Senior Code Consultant, Director of Code and Life Safety Group Morrison Hershfield
Dana has been applying Building and Fire Codes across Canada since 1997 and has been with Morrison Hershfield since 2001. She has extensive experience in interpretation and application of the Codes to new and existing buildings, development and negotiation of Alternative Solutions, resolution of unusual fire protection construction issues, fire hazards analysis, and application of fire and smoke modelling to support design solutions. She started her career as a plans examiner with the City of Hamilton. Dana supports clients in applying the Building Code to achieve their project vision while providing the level of safety required by the Code.
Trisha Ashworth, P.Eng., M.Eng. Senior Code Consultant, Department Manager of Code within the Code and Life Safety Group Morrison Hershfield
Trisha has been working in the building consulting industry since 2007 and has been with Morrison Hershfield since 2017. Trisha actively applies her knowledge of Building and Fire Codes across various Canadian jurisdictions for both new building designs and existing building retrofits across a range of occupancy types. Trisha’s fundamental knowledge of fire dynamics and fire protection design, inherent in the formation of the Building Codes, allows her to apply judgment in the application of prescriptive requirements of the Codes and develop alternative solutions to meet the areas of performance required by the Codes.
Tallwood 1
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 into the Ontario Building Code, the path to approvals for these buildings has become less onerous. Building with mass timber has many benefits vs. conventional concrete or steel construction from sustainability to construction time to occupant health. However, cost is often a deterring factor, particularly for developers. There are many considerations that need to be made to make tall mass timber buildings a competitive option and we will share some with you in this presentation using the recently completed Tallwood 1 building in Langford, BC. Tallwood 1 is the first 12-story mass timber-steel hybrid building in Canada and located in one of the highest seismic zones in the country. In addition to sharing lessons learned from this project, we will also discuss how this building may be different if it were to be built in Ontario.
Learning Objectives
Understand the design and construction advantages of using mass timber in tall building projects like Tallwood 1 – structural benefits, aesthetic possibilities, and environmental impact.
Analyze the engineering challenges and solutions involved in the project, focusing on mass timber integration with other construction materials.
Evaluate the implications of prefabrication and modular construction techniques used in the Tallwood 1 project – to enhance construction efficiency, reduce waste, and potentially lower project costs.
Discuss the impact of innovative structural systems like point-supported CLT and hybrid seismic systems on the architectural design and functionality of tall buildings.
Course Video
Speaker Bio
Mehrdad Jahangri, P.Eng., Dipl. Ing.(Germany) Principal ASPECT Structural Engineers
Mehrdad is a principal at ASPECT and has more than three decades of international experience on notable, architecturally oriented commercial, educational, recreational, and residential projects. He is internationally recognized for his innovative approach and consulting with North American and international architects. He has a sound knowledge of building physics and sustainable design concepts that allow him to actively engage in sustainable design challenges and decisions. Mehrdad understands the challenge of creating carefully detailed yet efficient structural designs and provides an unparalleled level of service to all his clients.
Eva Chau, P.Eng., M.Eng. Associate ASPECT Structural Engineers
Eva is an Associate at ASPECT and holds a Bachelor of Applied Science in Civil Engineering from the University of Toronto and a master’s degree in Structural and Earthquake Engineering from the University of British Columbia. Over the course of her career, she has worked on a wide range of residential, institutional, civic, and transit projects. Eva is proficient with all major building materials but has been strongly focused on mass timber building for the past 4 years. Eva is passionate about structural engineering and always strives to help clients realize their unique visions and achieve their project goals.
Innovative Envelope Solutions for Mass Timber
Course Overview
As society strives toward lower-carbon construction and increased operational efficiency of the built environment, we know that a building’s envelope significantly impacts a project’s overall environmental performance. This panel presentation offers attendees a glimpse into three different façade systems being employed in three important mass timber projects in Toronto.
Industrialized exterior wall system for the 1925 Victoria Park project in Toronto, Canada.
From local to global, global to local – the CREE building system is used locally in various markets and continents. 1925 Victoria Park is an example of how you can use this exterior wall system. Since 2010, the CREE building system is constantly evolving and adapting to different markets. Now it is reaching North America. This presentation will give you insights into the project developments, design processes, challenges, and details of the exterior wall of the 1925 Victoria Park project in Toronto, Canada.
Learning Objectives
Understand the integration of wood products in building envelopes and their role in achieving high-performance in mass timber projects.
Analyze the challenges and technological solutions involved in combining wood products with other building materials for envelope construction.
Evaluate the impact of prefabricated wood product systems on construction efficiency and environmental sustainability – in terms of construction timelines, labor efficiency, and carbon footprint reduction.
Discuss the future implications and potential innovations in wood product applications in building envelope systems.
Course Video
Speaker Bio
Chris Ertsenian, Dip. Arch. Tech. Associate Moriyama & Teshima Architects
Case study presentation on the façade at Limberlost Place, Georg Brown College’s 10-storey, mass timber, net zero carbon emissions academic building on Toronto’s waterfront.
Chris Ertsenian, a long-standing MTA Associate and Senior Job Captain, facilitates competitive contractor bids, expedites construction, and minimizes change orders by ensuring that the firm’s contract documents optimize constructability and are clear, complete, and well-coordinated. He brings a breadth of experience on a wide range of project types and has been an integral member of the production and quality control team on many highly complex and exacting projects.
Chris is currently serving as Job Captain for Ontario’s first institutional mass timber building, Limberlost Place (formerly “The Arbour”) at George Brown College; managing the consultant team and monitoring construction progress. He is also the Senior Technologist on the University of Waterloo Faculty of Mathematics Academic Building.
Previously, Chris has worked with all of MTA’s partners to realize many major college and university buildings, including the Brian Mulroney Institute of Government at St. Francis Xavier University, Nova Scotia Community College’s Sydney Waterfront Campus, Toronto Metropolitan University’s Centre for Urban Innovation, and many more to name a few. He has also worked on several public and cultural projects, such as Place des Arts in the City of Greater Sudbury, the Government of Canada’s Visitor Welcome Centre Phase 1 on Parliament Hill, the City of Surrey (British Columbia) Civic Centre, as well as the Ismaili Centre and Aga Khan Museum in Toronto. With strong organizational skills and the ability to manage multiple complex projects at once, Chris’ impact on MTA’s portfolio is wide-ranging and highly influential.
He authored Moriyama & Teshima Architects’ CADD standards and user manual, as well as more recently authoring MTA’s Drawing Standards and assisting in BIM Standards which exemplify his organizational abilities, attention to detail and comprehensive knowledge of building technologies.
Kelsey Saunders, M.B.Sc., CPHD, LEED® AP BD+C. Project Manager and Building Scientist RDH Building Science Inc.
Case study presentation on the façade at the University of Toronto’s new 4-storey, 346-unit, mass timber student residence at Trinity College.
Kelsey Saunders is a Project Manager and Building Scientist at RDH Building Science and has been in the building science field for nearly 10 years. She holds a Bachelor of Architectural Science and a Master of Building Science degree from Ryerson University. She is a Certified Passive House Designer and a LEED AP in Building Design and Construction.
Kelsey’s work is focused on early-stage building enclosure consulting on new construction projects across North America with a particular specialty in low carbon buildings both in terms of operational and embodied carbon. She takes an enclosure-first approach to low carbon design and has worked on many Passive House, Net Zero Carbon, mass timber, and prefabricated panelized enclosure projects.
Kelsey has also been involved in numerous public and private research projects, including a current study of the embodied carbon impact of building enclosure systems in whole life carbon emissions to support early-stage decision making for low carbon design.
Tim Steffinger Structural Consultant specialized in Engineering and System Design CREE Buildings
Case study presentation on the façade at 1925 Victoria Park, an 11-storey, 154-unit mixed-use rental apartment building with ground floor commercial.
Tim Steffinger is a civil engineer from Germany specializing in Engineering and System Design. He studied at the University of Stuttgart and received his master’s degree in civil engineering with a focus on structural design. At CREE Buildings, he is our expert in exterior wall systems and is constantly improving the CREE System with his expertise and ever-expanding know-how through practical experience and exchange with the international network. As Structural Consultant at CREE, he supports our license partners in the realization of timber hybrid structures and coordinates CREE projects worldwide.
From local to global, global to local – the CREE building system is used locally in various markets and continents. 1925 Victoria Park is an example of how you can use this exterior wall system. Since 2010, the CREE building system is constantly evolving and adapting to different markets. Now it is reaching North America. This presentation will give you insights into the project developments, design processes, challenges, and details of the exterior wall of the 1925 Victoria Park project in Toronto, Canada.
The Importance of Proper Specification: Agricultural, Commercial, and Industrial Applications for Pressure Treated Wood
Course Overview
One important aspect for all building products is proper specification. The Canadian Wood Council partnered with Wood Preservation Canada to publish a Specification Guide for non-residential pressure treated wood products, with a focus on agricultural, commercial, and industrial applications. Presentation attendees will learn more about the governing standard for wood preservation, how this standard is linked to the National Building Code, and key considerations that are essential for ensuring proper specification of pressure treated wood products.
Learning Objectives
Coming Soon
Course Video
Speaker Bio
Craig Wilson Vice President Technical Services with Timber Specialties Ltd.
Craig has nearly 40 years of experience in the wood preservation industry. He currently oversees the Technical Services Department at Timber Specialties which provides preservatives and technically related services to the wood preservation industry in Canada. He has been involved in many aspects of wood preservation and has served on several committees and associations including the Canadian Standards Association, the American Wood Preservation Association, Wood Preservation Canada, and was past President for the Canadian Wood Preservation Association.
Craig was an integral part of the development of the Use Category System and residential standards for treated wood in the CSA Standards. He has extensive knowledge on the treatability of Canadian Wood species with a variety of waterborne preservatives including CCA, ACQ, Borate, and Micronized copper.
Robert Jonkman, P.Eng. VP Codes and Engineering Canadian Wood Council
After completing a Bachelor of Civil Engineering and Management degree at McMaster University in 1994, Robert worked for one year at a structural engineering consulting firm and over nine years as the Design and Engineering Supervisor at a Canadian timber frame manufacturer. Robert joined the Canadian Wood Council in 2005, progressing to become the Director of Codes and Standards – Structural Engineering in 2014, and VP of Codes Engineering in 2021.
Robert has expertise in structural engineering, building science, and energy issues and active in the Codes and Standards development and with the Canadian Home Builders, including:
-Member – NBC SC Structural Design (Part 4).
-Member – NBC SC Housing and Small Buildings (Part 9).
-Secretary – TC responsible for CSA O86 “Engineering Design in Wood” Standard.
-Chair – ISO TC 165 mirror committee.
Practical and Advanced Modeling for Design and Performance of Mass Timber Structures
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 modelling is the first of its kind, bringing together the experience gained from recently built timber projects with the latest research development in the modelling of timber structures. Computer modelling is essential for analyzing and designing mid- and high-rise buildings and long-span structures. It is also a valuable tool for optimizing wood-based products, connections, and systems that improve structural performance. This useful guide supports the application and development of timber construction given that timber structures increasingly require demonstration of performance or equivalency through computer modelling, regardless of whether prescriptive or performance-based design procedures are used. This session offers an overview of the guide, which includes a wide range of practical and advanced modelling topics, such as key modelling principles, methods, and techniques specific to timber structures; modelling approaches and considerations for wood-based components, connections, and assemblies; and analytical approaches and considerations for timber structures during progressive collapse, wind, and earthquake events. It also presents the differences in the modelling approaches to timber, steel, and concrete structures.
Learning Objectives
Coming Soon
Course Video
Speaker Bio
Dorian Tung Manager Building Systems of Sustainable Construction Innovation Centres of Excellence FPInnovations
Dr. Dorian Tung is currently the Vancouver Manager for Building Systems of Sustainable Construction Innovation Centres of Excellence in FPInnovations. He has 20 years of experience in industry and academia. He has dealt with intellectual properties, knowledge transfer, and research dissemination. In addition to delivering research and development, he has been responsible for project management, sales, and marketing, as well as developing and maintaining business relationship. Dorian is a licensed professional engineer in Canada and USA, and also holds LEED certification, Building Design + Construction, from the U.S. Green Building Council (USGBC). He has designed a variety of structural systems and is experienced with various construction materials. Dorian has a strong portfolio in developing innovative structural solutions to achieve resilience. He has ongoing collaborations with researchers and scientists around the world to apply state-of-the-art technologies.
Overview of the Ottawa Mass Timber Fire Test
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 on the fire performance of mass timber construction will be reviewed briefly to provide the background necessary to understand how the latest tests support the design of taller and larger mass timber buildings. A review of how each of the five tests performed will be reviewed along with what it means for future mass timber building design.
Learning Objectives
Understand the rationale and execution of the demonstration fire tests – why and how the tests were conducted, their significance in obtaining approvals for mass timber projects.
Analyze the fire performance of mass timber structures compared to traditional building materials under controlled test conditions – understand fire dynamics in mass timber projects versus traditional materials like concrete or steel.
Understand the role and results of compartment fire tests in analyzing fire dynamics in mass timber projects.
Explore the implications of mass timber fire test findings on future building code developments and construction practices – how could the results from these fire tests influence changes in building codes and impact mass timber design and construction practices.
Course Video
Speaker Bio
Steve Craft, PhD, P.Eng. Principal CHM Fire Consultants Ltd.
Dr. Steven Craft is a founding partner of CHM Fire Consultants Ltd located in Ottawa. He served as an Adjunct Professor in the Fire Safety Engineering Program at Carleton University from 2010- 2019 and was a Research Scientist with Canada’s National Forest Products Research Institute, FPInnovations, from 2006-2011. He has an undergraduate degree in Forest Engineering from the University of New Brunswick and a PhD in Fire Safety Engineering from Carleton University. He is active in codes and standards development. He is the Chair of the ULC S100a Fire Test Committee and is on the Technical Committee for the Canadian Wood Design Standard, CSA O86, where he Chairs the Task Group on Fire Resistance.
Light Wood Frame and Mass Timber Hybrid Mid-Rise Construction
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 new and different strategies for delivering quality affordable housing to our Region. Each of the four buildings will be designed as a prototype exploring different construction methodologies and solutions tested against their sustainability impacts. The first building constructed uses a combination of conventional wood framing and mass timber.
Learning Objectives
Understand the impact of mass timber construction on project timelines and the operational efficiencies it can provide.
Analyze the factors influencing the choice of construction methodologies in mid-rise building projects, with a focus on the efficiency and speed of different methods.
Evaluate the challenges associated with municipal approvals when using new building materials like mass timber, including the need for alternative compliance solutions.
Assess the practical benefits of using Cross-Laminated Timber (CLT) in construction, particularly in terms of labor and time savings during the flooring installation process.
Course Video
Speaker Bio
Mike Maxwell President Maxwell Building Consultants
Mike was drawn to Waterloo for his degree from Laurier University and has seen local real estate development potential ever since. A combination of zoning bylaw rules, site data chart statistics and construction knowledge produce unique results for projects that he is involved with. He loves the math and the problem solving. In an advisory position with local governments, not-for-profit organizations, and CMHC, Mike has created strong partnerships to move the cause of affordable housing forward.
Course Overview A pilot project in Washington State tests the use of CLT to design and construct three modular classroom buildings in Western Washington. Funded by the...
Course Overview This session will help you to formulate effective floor and wall assemblies when designing wood structures, both light wood frame and mass timber. Discussion...
Course Overview Follow our journey of introducing CLT into high end‐custom homes and mixed‐use residential projects in the Greater Vancouver Area. We’ll explore the...
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...
Course Overview With buildings generating 40% of global carbon emissions, we need to achieve net-zero by 2050 to meet the Paris Agreement target and limit global warming to...
Course Overview WoodWorks Ontario proudly presents Delivering Mid-Rise Housing Solutions Part 2: Mass Timber. YWKW is a supportive housing project that obtained funding from...
August 5, 2025 - (Ottawa, ON) The Canadian Wood Council (CWC) welcomes today’s announcement by Prime Minister Mark Carney in Kelowna, unveiling a $1.2 billion investment to...
What does it take to deliver better buildings? In this issue, we explore that question from a couple of different angles—primarily through a look at standout wood projects...
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...
Save the date! WoodWorks Alberta and the Canadian Wood Council are bringing the Wood Solutions Conference to Calgary in November — and you won’t want to miss it. Tickets...
