Polished Concrete: How to Get What You Specify ( ~ 1 hour ) 

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Concrete is often the substrate for both new and existing floors. Transforming the surface into a finished floor is far more sustainable than consuming additional flooring materials, adhesives, and transportation-related energy to install a floor covering. This course discusses the stages and options of the concrete polishing process, recognizes benefits of recent advances in concrete densification chemistry, and provides an overview of the limitations and possibilities for concrete floor finishes.

The Human Benefits of Tubular Daylighting ( ~ 1 hour ) 

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Lighting is one of the most influential elements of the indoor environment, with far-reaching effects on the human body, mind, and spirit. For architects, designing spaces prioritizing natural light is critical to fostering comfort, productivity, and well-being. This course explores the health and wellness benefits of tubular daylighting systems and their role in creating healthier, more sustainable indoor environments. Also noted are applicable credits in the LEED® v5 Building Design and Construction and Interior Design and Construction rating systems and features in the WELL Building Standard™ version 2. The course concludes with a review of several case studies.

Polycarbonate Glazing Systems: An Energy-Efficient Daylighting Solution ( ~ 1 hour ) 

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Multiwall polycarbonate is an extremely versatile glazing material with high impact strength, excellent thermal insulation, and long-term light transmission. Compared to glass, it is much lighter and easier to handle, offering considerable savings in transportation, labor, and building costs. This course examines how multiwall polycarbonate systems can improve thermal energy efficiency and increase daylighting within a space, enhancing occupant productivity, health, and well-being.

Architectural Bamboo: Beautiful & Sustainable ( ~ 1 hour ) 

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Bamboo is a versatile, strong material with a warm aesthetic that suits an array of interior design styles. This course looks at how bamboo is sustainably sourced to produce low-VOC products such as flooring, cladding, and three-ply architectural wall and ceiling panels. Project examples highlight a CNC routing method that produces panels with eye-catching patterns of varying depths and levels of intricacy. The course also examines how bamboo products may apply to several credits and features in the LEED® v4.1 Building Design and Construction and Interior Design and Construction rating systems and the WELL Building Standard™ version 2.

The Versatility of Metal Cladding ( ~ 1 hour ) 

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Interest in metal cladding is continually growing because of its sustainable features: durability, long life span, recyclability, and contribution to cool roofs. Manufacturers provide a wide range of panel profiles, materials, and colors to meet the increased demand. This course examines the performance characteristics and attributes of metal roofing and cladding, different aesthetic options, and best installation practices, as well as how they contribute to more energy-efficient buildings.

Mechanical Parking: A Catalyst for Innovation in Building Design ( ~ 1 hour ) 

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As the population grows, urban centers are becoming denser and land more valuable. Architects are looking for parking solutions that provide space-saving benefits to high-density residential and commercial developments. This course discusses the performance of mechanical parking systems, also known as automated parking or high-density parking (HDP), and how they reduce space required for vehicle storage, increase safety, and minimize the environmental impact of parking vehicles. Specifications and installation are also examined.

The Importance of Sink Selection in Architectural Design ( ~ 1 hour ) 

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Kitchen and bathroom sinks serve as both functional necessities and design focal points, seamlessly integrating into a variety of architectural styles and design visions. Participants will explore sink materials and design considerations to enhance safety, sustainability, accessibility, and user experience. The course provides an overview of commercial and residential applications and trends and strategies for incorporating sinks into building design.

Operable Walls for Sustainable Design ( ~ 1 hour ) 

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Operable wall systems integrate the indoors and outdoors and define interior spaces, providing flexibility and additional usable area without increasing a building’s footprint. Occupants benefit from expansive daylighting and views as well as quick access to fresh air. This course describes the types of operable wall systems, how they contribute to sustainable design, and the various options and considerations for selecting the correct system.

Selecting Hybrid Vinyl Flooring for Performance, Value, and Sustainability ( ~ 1 hour ) 

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This course provides an overview of types of hybrid vinyl flooring and how they contribute to long-term value through reduced maintenance needs, verified indoor air quality performance, and responsible material sourcing. It examines manufacturing processes, product content, and material transparency that influence consistency, durability, and environmental impact. These attributes can support credit achievement in green building programs such as the LEED® v5 Building Design and Construction and Interior Design and Construction rating systems and the WELL Building Standard™ version 2 by addressing low-emitting materials, responsible manufacturing, and product transparency.

Wood Aesthetic Technologies for Class 1—3 Commercial Projects ( ~ 1 hour ) 

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The look of wood adds warmth and aesthetic appeal to building designs that other materials, such as masonry, metals, and glass, cannot replicate. However, since natural wood may not be suitable for Class 1—3 commercial projects, innovative composite and synthetic materials have been developed to overcome the limitations of real wood. This course provides a comprehensive examination of eight wood-inspired design technologies that mimic the appearance of natural wood while meeting fire performance standards. The role of wood-plastic composite (WPC) hybrid products in fulfilling the requirements of the LEED® v5 Building Design and Construction (BD+C) rating system is also reviewed.

ICF Block Systems for High-Performance Buildings ( ~ 1 hour ) 

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This course explores insulating concrete forms (ICFs) as part of a sustainable construction system by covering their benefits, applications, and design considerations. The course delves into the structural properties, energy efficiency, and environmental impact of ICFs. Also presented are best practices for integrating ICFs into various architectural projects and a concise overview of installation steps.

Turn on the Daylight: Automated Shading for Human Health + Building Performance ( ~ 1 hour ) 

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A large portion of new commercial and residential buildings built today are equipped with clear, floor-to-ceiling glass. Does this new expansive area of glass lead to daylight optimization? This course explains the impacts of daylighting on human health and building occupant comfort. Proactive and reactive automated shading systems are discussed, and the course explains how a properly designed shading system can reduce whole-building energy consumption. Automated shading systems in projects of various scopes and scales are also discussed.

Main Entrance Air Curtains: Improving Energy Efficiency, Health, & Comfort ( ~ 1 hour ) 

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Main entrance air curtains are used by architects and engineers in commercial, institutional, and industrial settings to both improve energy efficiency and protect occupant comfort and well-being. This course reviews the research that led to air curtains being approved as an alternative to vestibules in ASHRAE 90.1-2019 and other building codes, as well as how air curtains on main entries contribute to sustainability goals around energy conservation, public health, and indoor air quality.

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.

Healthier & More Sustainable Hydration with Bottle-Filling Stations ( ~ 1 hour ) 

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Adequate water consumption is essential to human health, and many turn to bottled water for convenience or out of concerns about the public drinking water supply. But bottled water presents its own water quality issues along with environmental impacts of disposable plastic bottles. This course explores bottle-filling stations that offer safer, convenient, sustainable hydration in a wide range of applications. Also reviewed are the features, benefits, and installation options of bottle-filling stations and how they contribute to drinking water requirements in the WELL Building Standard™ (WELL™) version 2.

Looping in Sustainability: Choose Materials That Support the Health of People and the Planet ( ~ 1 hour ) 

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The AIA Materials Pledge identifies five impact areas that building products and materials can and should address: ecosystem health, social health and equity, circular economy, climate health, and human health. This course reviews the concepts, certifications, and tools designers can apply to choose materials that support these five impact areas, including the mindful MATERIALS Common Materials Framework (CMF), the industry’s first common language for sustainable building materials. Finally, the course presents practical examples of exemplary products and materials and assesses them using this framework.

Urban Shade Solutions: Advancing Comfort, Health, and Climate Resilience ( ~ 1 hour ) 

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This course explores the critical role of shade in urban design, public health, and climate resilience. It examines how natural, built, and combined shading systems reduce heat exposure, support thermal comfort, and enhance the usability of outdoor spaces. Through case studies, technical analysis, and planning frameworks, participants will learn how to evaluate shade needs, select appropriate solutions, and integrate shade into parks, plazas, transit stops, and other public environments.

Sustainable, Strong, & Safe:A Guide to Aluminum Industrial-Strength Ladders ( ~ 1 hour ) 

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Industrial-strength ladders must provide functional safety for users in varied and demanding building environments. Aluminum ladders are up to the challenge of virtually any application thanks to aluminum’s high strength-to-weight ratio, durability, and corrosion resistance. This course reviews ladder types and safety considerations and discusses how the sustainability benefits of aluminum along with its other attributes make it an ideal material for heavy-duty ladders.

The Importance of Balanced Ventilation with Energy Recovery Ventilators (ERVs) ( ~ 1 hour ) 

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An energy recovery ventilator (ERV) system provides occupants with filtered, balanced, and tempered air within their living space. Airborne contaminants can be greatly reduced with ERV systems. This course provides knowledge about the need, use, design, and installation of ERVs in the modern dwelling unit and when retrofitting existing structures. The course also addresses the environmental advantages of sustainable and healthy solutions for indoor air quality.

The Benefits of Building with Fiberglass-Reinforced Plastic (FRP) ( ~ 1 hour ) 

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FRP products are not only an ideal alternative to traditional building materials, but in certain applications, they should be the only choice. This course demonstrates the value of FRP‘s core features of corrosion resistance, nonconductivity, and overall lighter weight than steel by up to 70%. The additional primary properties and benefits of FRP are also discussed, showing how FRP can enhance project design, speed up installation, and solve challenges in numerous industries.

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.

Managing Water Efficiency with Dual-Flush Toilets ( ~ 1 hour ) 

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Efficient water use and conservation are key parts of sustainable development. Toilets account for the greatest water usage within a residential home (typically 30 percent). Dual-flush toilets are an option to reduce water usage by up to 20 percent while meeting the LEED® v4 Water Efficiency requirements. This toilet option can also be incorporated into accessible bathrooms and use touchless flush plates. The most attractive feature of the dual-flush toilet is that it does not require significant behavioral changes for benefits to be realized.

Designing High-Performance Data Centers for Intelligent Buildings ( ~ 1 hour, 15 minutes ) 

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Today’s buildings are evolving from independently functioning structures to intelligent buildings that interact with occupants and surrounding buildings. This trend has impacted the design, operation, and maintenance of data centers around the globe due to the increased demand for data and digital communication and has resulted in more high-performance data centers. This presentation addresses the specific needs of data centers and presents high-performance design solutions that support sustainable design.

Low-Carbon Concrete and Project-Level Carbon Budgets ( ~ 1 hour ) 

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As concrete is a carbon-intensive building material, design and construction professionals are encouraged to make informed, low-carbon design decisions. This course explores the evolving path toward low-carbon concrete solutions. Discussions include mix design optimization and trade-offs, exposure class, benchmarks, environmental product declarations (EPDs), and potential contributions toward LEED® v5 Building Design and Construction credits. Structural design strategies, performance-based specifications, and project-level carbon budgets are presented as means to support project and sustainability goals and performance requirements.

Glass Fiber Reinforced Concrete (GFRC) ( ~ 1 hour ) 

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Throughout history, concrete mixes and carved natural stone have combined to create substance, beauty, and longevity in our architecture. Glass fiber reinforced concrete (GFRC) was created to ensure that the attributes of concrete and stone continue to be enjoyed but with efficiency in the application that is expected in today's world of design. This course covers the creation of GFRC, its components, fabrication, applications, and design capabilities. It compares GFRC to other types of architectural concrete and presents GFRC performance and sustainable design advantages.