Innovations in Window Film for Architectural Applications ( ~ 1 hour ) 

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With the increasing prominence of glass in new buildings and retrofits, the use of window film can raise the style, performance, and safety of today’s building projects. This course examines the use of various types of window film (decorative, solar control, and safety/security) and their role in improving occupant comfort and safety, lowering energy costs, and enhancing privacy.

Preservative-Treated Wood: Specification and Use ( ~ 1 hour ) 

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In applications where wood may be exposed to moisture, insects, or fungal organisms, preservative-treated wood can ensure a project’s durability. This course reviews: the manufacturing process for pressure-treated wood; types of preservative treatments and the required levels of retention as dictated by the end-use application, desired service life, and exposure conditions; American Wood Protection Association (AWPA) Use Category standards; current issues concerning preserved wood in residential and commercial construction; and Best Management Practices (BMPs) for aquatic uses.

Advanced Cellulose Insulation: Quiet, Comfortable, Safe, and Sustainable ( ~ 1 hour ) 

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Cellulose insulation has been used successfully by builders and designers for hundreds of years to provide comfort and warmth. Today, builders and designers also consider sustainability principles, climate change, occupant health and wellness issues, energy conservation, and carbon sequestration. Advanced cellulose insulation addresses all those areas as well. This course explains its environmental benefits, including its carbon capture ability, how it improves occupant health and well-being, and its numerous high-performance thermal, acoustic, and fire-resistant attributes.

New Code Requirements for Fire-Rated Doors and Hardware ( ~ 1 hour, 30 minutes ) 

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The role of a fire-rated door is to maintain the integrity of a fire-rated enclosure in the event of a fire, giving building occupants enough time to exit the burning building. This course is an introduction to fire-rated doors and a general review of the fire codes that relate to fire doors and hardware, referencing 2012, 2015, and 2018 IBC; NFPA (National Fire Protection Association) regulations; and the ADAAG (Americans with Disabilities Act Accessibility Guidelines).

The Importance of Space: Rainscreen Technology in Residential Building Design ( ~ 1 hour ) 

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Building science experts have acknowledged the need for both drainage and ventilation in exterior wall systems in order to eliminate moisture issues and extend the life of buildings. This presentation reviews the concepts of rainscreen technology and the solutions for compliance with a focus on engineered rainscreen drainage and ventilation mats used in direct-applied and ventilated wall designs. Prerequisites: No Course Level: Introductory

Thermal Bridging & Thermal Break Solutions ( ~ 1 hour, 15 minutes ) 

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The need to evaluate thermal bridging in a building’s design and performance has become more prevalent because of the increasing requirements for more energy-efficient buildings. This course provides an introduction to thermal bridging, energy code requirements, and the use of thermal break solutions designed to improve energy efficiency in the building envelope.

Building the Perfect Envelope with Insulated Metal Panels ( ~ 1 hour ) 

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Understanding building physics is critical to proper building envelope design. Examined here are practical concepts for the building designer, including how cladding systems perform across different climate zones and applications. Environmental control layers and hygrothermal loads are reviewed, as is the concept of perfect/universal wall design. The course focuses on how single-component insulated metal panels (IMPs) function as a perfect/universal wall, simplifying wall system design and installation.

Impact of Window Treatments on Commercial Daylighting Design ( ~ 1 hour ) 

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Daylighting is the controlled admission of natural light into a building. It takes into consideration both direct and diffuse sunlight and reduces use of electric light, thereby decreasing energy costs. By controlling daylight, solar heat gain can be minimized, lowering the demand on HVAC systems. This course evaluates a variety of daylighting strategies for commercial applications and includes discussions about the relevance of daylight factor calculations and the impact fabric characteristics have on a shading solution.

High-Performance Building Envelope Designs with Insulating Concrete Forms ( ~ 1 hour, 30 minutes ) 

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Insulating concrete form (ICF) products use a cost-effective and robust structural material option (reinforced concrete) to turn a building envelope into a high-performing thermal, moisture, and air enclosure with disaster resistance and built-in compliance with energy code requirements. As a result of ICF performance, building owners can complete a whole structure with ICFs and reinforced concrete, including intermediate suspended floors, rooftops, and multistory designs. This course examines the advancements in ICF technology and discusses the potential contribution of ICFs to supporting improved sustainability and resilience.

Fire & Smoke Protection with Life Safety Dampers ( ~ 1 hour, 15 minutes ) 

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The use of life safety dampers is driven by requirements in various building codes. There are many different applications for which fire, fire/smoke, smoke, and/or ceiling radiation dampers can be used, each having its own specific purpose and unique installation requirements. This course gives an in-depth look at the different types of dampers and explains how and where they're each used and installed.

Building Science and Moisture Management ( ~ 1 hour, 15 minutes ) 

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The trend toward more sustainable, healthy, and energy-conserving enclosures has brought building science and moisture management to the forefront of daily conversation for professionals in the construction industry. In this course, we delve into the science behind current practices and explore the role of building envelopes, optimal wall assemblies, and enclosures in vapor, water, air, and thermal control.

Spray Foam 101: Taking Construction to the Next Level ( ~ 1 hour ) 

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This introductory course on spray polyurethane foam (SPF) covers component chemistry, different types of SPF, and the proper use of SPF in construction applications. In addition, the course addresses code compliance related to SPF for residential and commercial construction, as well as safe SPF installation practices. Participants will come away with a strong knowledge of how the proper use and application of spray foam can improve the indoor environment and the durability of the built environment.

Drainage: Vertical and Horizontal Building and Sitework Applications ( ~ 1 hour ) 

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Building science experts acknowledge the need for drainage in both vertical and horizontal applications in order to eliminate moisture issues and extend the life of the building. This course examines foundation wall, green roof, and plaza deck applications and discusses the factors that impact drainage, including soil permeability, saturation, land cover, and loading. Flow rate standards are discussed, and drainage composite mat installation is explained.

Mineral-Based Composite Decking: Innovation and Performance You Can Build On ( ~ 1 hour, 15 minutes ) 

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Advancements in composite decking technology are transforming the way outdoor spaces are designed and built, particularly in multifamily settings where effective water management is critical. This course introduces mineral-based composite decking systems and their role in eliminating the need for secondary membranes. Learners will explore how these all-in-one solutions streamline installation, reduce long-term maintenance costs, and help prevent common issues such as mold, decay, and water intrusion. The course also highlights how well-designed outdoor amenities can foster social connection, support resident well-being, and enhance the value of shared spaces.

Rainscreen and Ventilation Solutions for Healthy Walls ( ~ 1 hour ) 

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The construction industry has experienced a significant increase in moisture-related problems in exterior walls. This presentation explains how a rainscreen wall system prevents moisture accumulation within walls by providing a means for drainage and ventilation, thereby prolonging the life of buildings. Discussion topics include air and moisture movement in the building envelope, building code and water-resistive barriers, and stucco and thin veneers in rainscreen systems.

Not All Concrete Is the Same: Low Embodied Carbon Dry-Cast Concrete Masonry ( ~ 1 hour, 15 minutes ) 

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Concrete masonry units (CMUs) are made from dry-cast concrete, which uses less cement and sequesters carbon at a faster and greater rate than wet-cast concrete. This course begins with an overview of concrete products and the differences between dry- and wet-cast concrete, then explores the relationship between concrete and the carbon cycle, recent research into CMU sequestration rates, and the results of mini life-cycle assessments comparing different wall systems. Finally, some practical strategies for further reducing embodied carbon are reviewed.

Designing Wind Uplift Resistant Roof Paving Systems ( ~ 1 hour ) 

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Wind forces always influence building design and detailing. This course focuses on one particular force, wind uplift, and its influence on roof paving system design and selection. It examines how wind loads and building configuration affect the design of roof paving systems; the codes, regulations, and calculation approaches that inform and control such designs; and the various options designers can use to design safe, appealing outdoor roof paving systems that will withstand even the strongest winds.

Masonry Anchors and Ties for the 2022 TMS 402 Building Code ( ~ 1 hour, 15 minutes ) 

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This presentation aims to aid architects, engineers, and specification writers in choosing anchoring systems to comply with the 2022 edition of The Masonry Society’s (TMS) TMS 402 Building Code Requirements for Masonry Structures and the International Building Code® (IBC®).

Thermoplastic Roofing: Materials & Systems ( ~ 1 hour ) 

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Roofing technologies have come a long way from labor-intensive BUR systems that achieved watertightness through redundancy. Today’s single-ply membranes are thin, light and reliable, and installation is safe and efficient. This course focuses on thermoplastic single-plies, particularly those that are PVC based, and explores their benefits and limitations as well as the important factors to consider when selecting a roof system, ranging from fastening techniques to warranties to sustainability.

Creating Sustainable Roofs with Standing Seam Metal Roofing ( ~ 1 hour ) 

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At their root, metal roofs and walls made from steel, copper, zinc, or aluminum have a lower environmental impact because of their ability to be recycled and reused. This course focuses on the green aspects of standing seam metal roofs, and in particular, their cool roof characteristics. Also addressed are the implications of heat islands, what constitutes construction of cool roofs/walls and how they work, some rules of thumb for understanding cool metal roofing, roof slope impacts on performance, and codes, ratings, and standards that apply to designing cool roofs/walls.

Sustainable Building Envelope Performance with Self-Sealing Fasteners & Anchors ( ~ 1 hour ) 

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Sustainable building envelopes demand high performance from and proper installation of continuous insulation and air, water, and vapor control layers. What happens when thousands of holes are made in these materials as they are installed with blind fasteners, one layer on top of another by different subcontractors? Sequencing issues can generally not be avoided; instead, this course focuses on self-sealing fasteners as a solution to avoid damage and thermal bridging in insulation and control layers. Various fasteners and anchors are described, and recommendations are presented for how to specify and what testing data to look for.

PMR Roofs: Designing for Sustainability ( ~ 1 hour, 15 minutes ) 

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According to building professionals, the solution to achieving an energy-efficient building envelope is to focus more on the roof. Protected membrane roof (PMR) assemblies deliver thermal efficiency and can play a valuable role in a sustainable design strategy. Presented in this course is a review of the components, advantages, ballast options, and design and installation considerations of PMR assemblies.

Fast, Scalable, Economical: The Benefits of Building with an Innovative Cold-Formed Steel (CFS) Framing System ( ~ 1 hour ) 

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Extreme weather events of all sorts are becoming increasingly frequent and ferocious. Wood stick-framed structures struggle to withstand them. As climate behavior shifts and worsens, building damage and destruction increase, building codes evolve, and insurance premiums skyrocket or simply become unavailable for certain building types in some locations. Architects must now utilize stronger, more resilient, noncombustible building approaches to address this situation. In addition, mounting pressures related to labor shortages, rising material costs, stringent building codes, and environmental volatility are pushing architects, developers, and engineers to reimagine their approaches to structural design and material selection. This course explores how an innovative, scalable, and economical cold-formed steel column and composite beam framing system can and does address these issues to create faster and deliver stronger, more cost-effective, and sustainable projects. This well-proven, code compliant system reduces dependencies on multiple trades and minimizes the number of handoffs, positively impacting schedule compression, which then translates directly into earlier openings, faster revenue generation, and reduced labor costs. The system is applicable to a range of housing, hotel, and commercial midrise projects in all climates. The course begins by exploring the limitations of traditional wood and metal framing systems. It then describes this prefabricated cold-formed steel (CFS) column and beam framing system and its details, erection methodology, advantages, environmental and sustainability benefits, accreditations, and certifications. It concludes with some representative examples of real-life projects.

Metal Roof Design in HVHZs: Best Practices for Architects and Roof Designers ( ~ 1 hour ) 

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The beaches and proximity to the Atlantic Ocean are some of the advantages of living in Florida. However, the extreme wind forces from hurricanes can easily damage even the strongest buildings and cause billions of dollars in property loss. As a result, certain areas of Florida―Miami-Dade and Broward Counties—have been designated High Velocity Hurricane Zones. The building products used in these zones must be laboratory tested to meet extreme wind and pressure performance standards. This course explains why a metal roof system designed to minimize the damage from hurricanes is important.

Installing Fenestration in Exterior Insulated Walls ( ~ 1 hour ) 

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Fenestration openings are a critical component of a building envelope, especially in present-day sustainable, energy-efficient buildings. Building envelopes play an important role in controlling the movement of heat, bulk water, and water vapor. Designing fenestration openings for buildings that use continuous exterior insulation has a significant role in reducing thermal bridging and thus conserving energy. This course reviews the impact of exterior insulation on fenestration installation design. The course also explores solutions for a wide variety of wall system variations.