Sustainable construction and high-performance buildings offer tremendous benefits to building owners, building occupants, and the larger community. Course content goes beyond codes, standards, and sustainability rating systems to explore options and best practices for getting the most out of green construction. This course provides foundational information and application opportunities on topics such as optimizing a building's energy efficiency; installing innovative, alternative energy solutions; and addressing the larger community challenges of storm water management and the urban heat island effect.

 This course is part of one or more "Course Collections". Click here to view the details...

Contemporary drinking fountains, water coolers, and water bottle refilling stations provide communities with access to safe, clean drinking water. This course recounts the history of the drinking fountain and addresses regulations surrounding drinking water distribution and treatment. It introduces touchless activation, compares the use of bottled water to bottle refillers, and provides guidelines for specifying commercial water delivery systems.

Insulated vinyl siding, known as insulated siding, is an exterior cladding that combines the protection and low maintenance of traditional vinyl siding with the energy efficiency of EPS foam. The composite results in an improvement in performance and aesthetics. This course discusses the benefits associated with installing insulated siding on new and renovation residential construction projects, and the range of architectural styles that can be achieved with the breadth of design and color options available.

Manufacturing companies are seeing an increased demand for sustainable products. This course discusses what drives the requests for sustainable products and how to incorporate sustainable choices within each step of the design and construction phases, including understanding what makes a product sustainable, what to look for when specifying a product and manufacturer, and how sustainable choices throughout the phases can have a positive impact on the construction project.

Curved elements, such as walls, ceilings, columns, soffits, light covers, clouds, and arches have often been used to add interest to architectural designs. This course outlines conventional methods of framing curves in wood and steel, as well as new methods of framing using flexible track systems. Discussions include options for wall coverings and trims for curved surfaces.

While the bathroom was once a strictly utilitarian space, a growing trend among luxury consumers is to create a custom, spa-like wellness retreat right in the home. Surveys find that luxury consumers value functional and design excellence, uniqueness that reflects a creative side, and exceptional quality and value. This course examines the shower products available that help to create a personalized, multisensory wellness experience with beautifully designed pieces that meet water efficiency standards.

This recorded webinar is the first of five sessions presented during the Building Science Master Summit held by DuPont Performance Building Solutions. This course focuses on the ways to improve the accounting of embodied carbon and on considering other performance elements when making product selection decisions.

 This course is part of one or more "Course Collections". Click here to view the details...

Custom window products include a range of products, from truly one-of-a-kind fabrications to customizable components. This course takes a detailed look at what design options are available to the architect in premium and luxury window products. Installation and performance issues pertaining to large window combinations are also discussed, as well as recommended solutions and mitigation strategies for structural and water infiltration challenges.

There are a number of building elements that maintain a separation between indoors and out. These elements should be able to work together to provide a comfortable and energy-efficient building. This course reviews building envelope systems, with a focus on selecting performance-based products for below-grade, above-grade, and roofing applications, and a discussion on best practices for design and installation.

In the last couple of decades, houses have become progressively more airtight due to energy efficiency and cost concerns. While air infiltration and exfiltration rates have been significantly reduced, the need for an efficient ventilation system has become extremely important. This course evaluates different types of mechanical ventilation systems and discusses why heat recovery ventilation (HRV) and energy recovery ventilation (ERV) systems are characterized by a high level of energy efficiency and as an effective means for improving indoor air quality.

 This course is part of one or more "Course Collections". Click here to view the details...

Traditionally used for high-performance architectural applications, water-based PVDF coatings can now be applied to cellular PVC cladding materials, delivering high performance in a new application. This course presents the benefits of cellular PVC as a cladding material and focuses on water-based PVDF coatings, how they work, and how their performance characteristics contribute to their durability.

Fire is a threat that, as designers, you need to consider and design for. Commonly used building materials lose strength when exposed to fire, and so the need to protect the health and safety of occupants through fireproofing is essential. This course looks at fireproofing standards, testing, and the application of a variety of products to meet the fireproofing requirements of your designs.

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Alaska yellow cedar (AYC) is one of the most visibly unique woods available to builders, architects, and homeowners. It is sustainable and rot resistant and has a natural beauty that requires very little staining or finishing. AYC is popular for exterior and interior residential applications, such as decking, landscaping features, shakes and shingles, paneling, mass timbers, and beams. This course examines the performance characteristics of AYC, including fire resistance and durability, and various applications are also discussed.

Bar and Plank Gratings are used for a wide range of applications. With the array of Grating products that are available on the market, the proper selection of a suitable solution requires an understanding of the specification considerations. This course provides a review of these considerations along with a discussion of the applications and terminology relating to Bar and Plank Grating products.

Moisture and soil gas beneath concrete slabs can cause a myriad of problems in both residential and commercial applications. The causes and consequences of these problems are reviewed in this course, along with a discussion on the types and characteristics of under-slab water vapor and soil gas barriers.

Composite construction utilizes dissimilar materials to exploit the benefits of each. While composite construction in general has been used extensively for several decades, open-web composite joist construction is now becoming a more popular choice through new and innovative solutions. This course presents the components and benefits of composite joist systems, addresses connector types and layouts, and offers specification tips and design considerations.

Glass doors, windows, and storefronts are among the most vulnerable points of entry in the building envelope, and with episodes of riots, smash-and-grab crime, forced entry, and active shooters on the rise, the need for security glazing is growing. This course provides an understanding of the physical security needs of the built environment and what requirements should be met by threat mitigation products for existing storefront and building glazing. The course focus is on a new generation of clear, retrofit security “over-glaze” systems, utilizing heavy-gauge, architectural-grade polycarbonate and extruded framing designed to resist forced entry and ballistic attacks.

Although known for being a strong and versatile building material, there are a number of factors that affect the sustainability of concrete, and a variety of measures that can be taken to increase its durability and extend its service life, thus protecting the health, safety, and welfare of the users. This course discusses the environmental impact of concrete and some of the main causes of concrete deterioration, and examines how crystalline waterproofing technology can be employed to increase the durability and sustainability of concrete.

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While aluminum frames allow large glazed areas to maximize daylighting for energy savings and health benefits, aluminum is also a highly conductive material. This course explores how thermal barriers and high-performance glazing serve as a solution to aluminum’s conductive properties, to help achieve daylighting and thermal efficiencies in the commercial building envelope.

 This course is part of one or more "Course Collections". Click here to view the details...

Fallingwater, named the best all time work of architecture by AIA members in 1991, started experiencing problems shortly after construction. A novel structural system combined with constant interaction with water meant that, in order to maintain this national treasure, major restoration would be required. This course reviews the issues experienced by the building and the path to restoration that was taken.

Moisture infiltration through a building envelope can cause widespread damage to building elements and construction materials. In some cases, it can threaten or destroy a building’s structural integrity. The components of today’s waterproofing systems for above- and below-grade floors and walls or plaza decks are designed to work together to provide tight, durable, and complete protection against not just water but also all other environmental contaminants. This course discusses the fundamentals of waterproofing design, the types of materials used, and the considerations for selecting a waterproofing system to meet the requirements of a building project.

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.

Glass wall and door systems endow architectural concepts with transparent elegance. This course covers the benefits of interior glass wall and door systems and includes discussions on types of glass walls and operable systems; door types, rails, headers, hardware, and applications; glass types; and access control. It presents design and code considerations and specification of glass assemblies.

Insulated metal panels (IMPs) fulfill several functions of the building envelope and numerous aspects should be considered in their design from a structural, energy efficiency, and fire safety standpoint. Reviewed in this course are the specification considerations, design opportunities, and the standards and policies pertaining to IMP systems. Also discussed are the many performance benefits and green advantages IMPs offer over traditional building envelope materials.

The growing global population is creating an increased demand for resources. As a result, there is a need to replace fossil-based, nonrenewable building materials with more bio-based materials, such as bamboo. This course describes the properties of bamboo that make it a more sustainable choice, including its fast growth and CO2 saving and storing potential. It also discusses how active bamboo reforestation and the use of durable bamboo products can lead to CO2 reduction across many industries.

 This course is part of one or more "Course Collections". Click here to view the details...