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.

The Rooftop Environment: Designing for Safe Access and Fall Protection ( ~ 1 hour, 15 minutes ) 

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Anytime a facility has people working on a roof, their safety and protection must be the priority. Even under the best conditions, working on a rooftop is dangerous due to the roof’s elevation, slope, and edge, as well as other hazards created by weather conditions, electricity, and power tools. This course reviews the hazards of the rooftop environment and the relevant Occupational Safety and Health Administration (OSHA) regulations to aid designers, property owners, and facility managers in selecting safe access and fall protection systems for their buildings.

The Role of Door Openings in Improving Resilient Design ( ~ 1 hour ) 

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Resiliency is a growing necessity. It is important to understand the impacts on the built environment resulting from natural and manmade disasters and disturbances and to design for those impacts now. Presented in this course is an overview of the benefits of using steel doors as part of a resilient design strategy for applications requiring resistance to blasts, tornadoes, and ballistics.

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.

Lightweight, Long Lasting, & Low Cost: The Future of Terracotta Rainscreens ( ~ 1 hour ) 

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Terracotta rainscreen cladding systems enhance building envelope performance through improved moisture management, reflected in the WELL Building Standard™ version 2, as well as through energy efficiency, structural integrity, and durability. The course examines the manufacturing of terracotta cladding, highlighting responsible clay sourcing and postextraction site reclamation, and discusses performance, aesthetics, and sustainability benefits, including how terracotta cladding can contribute to meeting the requirements of LEED® v5 Building Design and Construction (BD+C): New Construction. Additional topics include system color, layout, and wall assembly options, best installation practices, and industry standards and tests.

Green Roofs: A Sustainable Strategy ( ~ 1 hour ) 

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Designing with green roofs affords design professionals opportunities to plan projects with exciting new elements, added value, and significant, tangible benefits, thereby enhancing the built environment with newly-created landscapes. This course examines green roof systems, including the types, benefits, components, and related standards. As well, it provides a discussion on how green roofs mitigate urban heat island effect and reduce stormwater runoff.

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

Exterior Wall Fire Performance with Polyiso CI for Types I–IV Construction ( ~ 1 hour ) 

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The increase in building energy efficiency requirements has led to the use of exterior continuous insulation (CI) to improve the performance of the building envelope. This presentation reviews the benefits of polyiso continuous insulation and then examines in detail the NFPA 285 test standard and fire safety requirements of the 2021 International Building Code for the use of polyisocyanurate insulation in exterior walls of commercial buildings (Construction Types I–IV).

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.

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.

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.

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.

Mineral Wool IMPs: Sustainable, Fire–Resistant Construction ( ~ 1 hour ) 

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A sound building envelope should be sustainable and provide fire resistance, good thermal performance, and protection from the elements. Mineral wool, fire rated insulated metal panels (IMPs) can improve building performance and contribute to a sustainable design strategy. Included in this course are discussions on mineral wool IMP characteristics and design options, performance advantages, and installation considerations. The course details how fire resistance is specified in the International Building Code and provides examples of fire wall and fire partition construction assemblies.

IMPs, EPDs, and HPDs: Sustainable Performance ( ~ 1 hour ) 

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The use of sustainable materials and products during building design will become the standard within the construction industry, and environmental product declarations (EPDs) and Health Product Declarations (HPDs) help architects and owners make informed decisions for their projects. Insulated metal panels— a prime example of a sustainable product—are one of the most cost-effective solutions to reduce energy and greenhouse gases.

FRP Entrances: The Science Behind the Door ( ~ 1 hour ) 

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Some building parts may see minimal human contact or weathering. Doors and entryways, however, need to be able to stand up to heavy use, frequent direct contact from building occupants, and environmental impacts. In this regard, FRP doors and frames offer robust strength, reliability, and durability. They provide project versatility and customization in colors and textures, are excellent thermal insulators, and allow for easier installation and lower costs in construction projects. This course outlines the FRP door and frame components, manufacturing methods, and types and discusses the benefits of FRP products.

Advantages of Slag Cement for Improving Today's Concrete ( ~ 1 hour, 15 minutes ) 

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Concrete is one of the most widely used building materials throughout the world, and as such, it is in everyone’s best interest to consider more sustainable options. This course provides an overview of the properties of slag cement. Discussion topics include benefits, effects on plastics and hardened concrete, environmental profile including life cycle analysis (LCA) and environmental product declarations (EPDs), and various slag cement applications.

Spray Polyurethane Foam (SPF) Applications and Safety ( ~ 1 hour ) 

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This course aims to educate learners about the chemistry of spray-applied polyurethane foam (SPF), its various applications in the construction industry, safe handling and installation, and its contribution to sustainable design. The advantages of using SPF are highlighted in terms of its benefits to energy conservation and fire safety. Its role as a high-performance air barrier that satisfies code and LEED® criteria and complies with various standards is also discussed.

Metal Roofing Color Considerations to Save Energy & Meet Green Building Requirements ( ~ 1 hour ) 

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Metal roofing offers longevity, durability, and visual appeal. Today, a range of color and finish options are available that afford specifiers broad design flexibility. This course explores key solar reflectance and sustainability considerations when evaluating metal roofing colors and how selection relates to requirements in codes and green building programs such as LEED® v4.1 Building Design and Construction, Sustainable SITES Initiative® v2, and the WELL Building Standard™ version 2. Case studies demonstrate how metal roofing colors have been used to meet design and sustainability objectives.

Safe & Tested Chemistry to Combat Wildfires, Environmental Harm, & the Insurance Crisis ( ~ 1 hour ) 

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The effects of climate change are causing the threat of extreme wildfires to grow across the US, even in areas not considered to be at risk 20 years ago. Designing fire-resistant properties that are prepared and protected year-round is an essential factor in building wildfire-resilient communities. This course reviews the health and environmental harms of wildfires and their role in the growing insurance crisis and then addresses how an eco-friendly fire inhibitor can be part of a multilayered defense strategy. Also discussed are this nontoxic product’s fire and safety testing and certifications and how it can be deployed in a variety of methods to serve as a proactive defense against embers, the leading cause of structure ignitions in wildfire events.

Sustainable Design Using Highly Insulated Diffused Natural Daylight ( ~ 1 hour, 15 minutes ) 

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The diffuse light-transmitting and composite technology of translucent structural sandwich panels has increasingly caught the imagination of architects and designers because it is possible to maximize wall or roof daylighting while minimizing energy loss, with consequent savings in the running costs of heating, air conditioning, and artificial lighting. This course explores the fundamental connection between light and health by examining how translucent structural sandwich panels deliver glare-free, diffuse daylight deeper and more evenly into spaces with maximum thermal efficiency.

Bamboo Rising: New and Sustainable Material Innovations for Architecture ( ~ 1 hour ) 

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This course examines bamboo as a sustainable construction material by focusing on its properties, environmental advantages, and innovative applications. Participants will explore responsible sourcing, manufacturing practices, and key certifications. The course also covers advanced products such as thermally modified and high-density bamboo. Professionals will gain the knowledge required to integrate bamboo into projects that align with performance and sustainability standards.

Performance Parameters: A Guide to Selecting the Appropriate Roof Underlayment ( ~ 1 hour ) 

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Roof underlayments play a vital role in enhancing roof durability by preventing moisture intrusion and extending the life of the roofing system. This course compares traditional felt roof underlayments with modern synthetic roof underlayments across various parameters and discusses ASTM standards and material testing. The course examines the four critical performance factors that influence product selection and concludes with a checklist of items to address to ensure the appropriate underlayment is specified.

Single-Skin Metal Panels for Pressure-Equalized Rainscreen (PER) Applications ( ~ 1 hour ) 

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Various control strategies are used to prevent rain from penetrating a building envelope and entering a building assembly. This course compares exterior wall metal cladding systems and takes an in-depth look at the design options, testing, specifications, environmental implications, and the detailing of single-skin metal panel systems as used in a pressure-equalized rainscreen (PER) application.

Concrete Masonry: The Energy Efficiency Solution ( ~ 1 hour, 15 minutes ) 

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Increased energy efficiency in both new and existing construction continues to be a large factor behind the design decisions we make and the materials we choose to integrate into our buildings. Concrete masonry construction can provide a wide range of benefits. This course illustrates how building envelopes constructed with concrete masonry create high-performance buildings that can exceed energy code requirements.

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.