Featured

Displaying 50 featured courses.

  • ( ~ 1 hour ) 

    The beautiful gray patina of zinc architectural metal has graced the rooftops of buildings in Europe for hundreds of years. This course examines the sustainable characteristics of zinc as a roofing material, including its 100% recyclability, zero VOC requirement, and low embodied energy production process. The life cycle analysis of zinc is examined, as is zinc’s long-term service life. Various types of roof and wall applications are also discussed.

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  • ( ~ 1 hour ) 

    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.

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  • ( ~ 1 hour ) 

    Obesity rates in the U.S. have reached epic numbers and correlate to significant health and economic impacts. Outdoor obstacle courses in public green spaces can provide appealing, effective, and free training equipment to the community to help increase physical activity. Review the theories of obstacle course training and guidelines for their design and installation.

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  • ( ~ 1 hour ) 

    Play and music are both essential parts of our lives. When we can combine music and play together in a fun and engaging space, the benefits are numerous, no matter your age. This course discusses why play and music education perform such a critical role in the development of happy, healthy children. We'll discuss the copious amounts of research that tell us that music education has real-life benefits, such as increased IQ, language development, and social engagement, and the role music plays within multiple therapies for the elderly and those suffering from mental illnesses. The course finishes with an overview of how to design musical play spaces for safety and inclusivity.

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  • ( ~ 1 hour ) 

    This course examines the role of play in human development and well-being through the lens of outdoor space design. It introduces current trends in inclusive play, adventure play, imaginative environments, and fitness-focused structures, with an emphasis on strategies that support creativity, community connection, and developmental outcomes.

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  • ( ~ 1 hour, 15 minutes ) 

    By design, automatic pedestrian doors provide easier, more convenient access than manual doors for a wide variety of building types, and their popularity in commercial design continues to grow. Reviewed in this course are the available options of automatic door solutions, including sliding, swinging, ICC/CCU, and revolving door systems. Also discussed are the code requirements and considerations relating to automatic doors for proper specification.

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  • ( ~ 1 hour ) 

    Designers increasingly focus on creating environments that improve the health, welfare, and productivity of occupants. This includes providing the benefits of daylight, fresh air, and access to the outdoors. This course explores how retractable roofs can extend the use of outdoor spaces year-round by converting them to daylit indoor spaces seasonally or with sudden weather changes. It explains the economic benefits, structure, and operation of various retractable roof types and how they can be customized to suit multiple site sizes and types, including rooftops. The course concludes with a series of case studies.

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  • ( ~ 1 hour ) 

    Waterproof, fireproof, nonporous, and eco-friendly natural slate has great value as a building material, particularly given its ability to protect structures for generations. This course reviews the characteristics and properties of slate, presents some of the many design options, and provides guidance on sourcing and specification. The sustainability benefits of roofing slate are also discussed, from its extraction and low-impact processing to its strength and enduring properties in all weather conditions.

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  • ( ~ 1 hour ) 

    The primary purpose of a roof is to provide shelter and protection; to do so effectively over the long term, proper drainage and ventilation are required. Presented here are the categories of metal roofing, the moisture- and noise-related issues associated with architectural metal roofs, the use of a three-dimensional drainage and ventilation mat as a solution to these issues, and best practices for incorporating a mat in metal and cedar roof assemblies.

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  • ( ~ 1 hour ) 

    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.

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  • ( ~ 1 hour ) 

    Radon is a colorless, odorless gas, a Class A carcinogen, the leading cause of cancer after smoking, and the leading cause of death for nonsmokers. It is found in soil, rock, and groundwater. If radon enters a home through slabs, basements, and crawl spaces, breathing it can lead to illness or even death. This course examines how the gas travels through soil and into structures and the various interception approaches and materials that can be utilized to prevent entry into inhabited spaces. It also highlights building code requirements and language that can assist with ensuring the correct radon interception systems are designed and installed effectively.

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  • ( ~ 1 hour ) 

    Stucco is a popular and durable finishing material that offers many benefits, combining safety and affordability while satisfying aesthetic needs. It can be applied to various surfaces using a lath system, which provides support for stucco. However, the quality of the stucco lath embedment can greatly affect its performance. This course covers the proper technique for achieving lath embedment, the different types of metal lath and their various applications, and regional material preferences.

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  • ( ~ 1 hour ) 

    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.

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  • ( ~ 1 hour ) 

    Standing seam metal roofing has been used successfully in the United States for centuries, and proper specification is key to realizing its intended performance. Examined here are: the factors driving the demand for standing seam metal roof and wall systems; standing seam panel basics; gauge and grade; oil canning; specification considerations; testing standards; and forming, delivery, storage, handling and warranty.

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  • ( ~ 1 hour ) 

    With the advent of “cool” single-ply roofs featuring heat-reflective exterior surfaces and the use of mechanical attachment, new questions have emerged concerning the internal forces at play within the roofing system, especially in regard to vapor movement and the potential for moisture condensation within the roof. This course reviews the fundamentals of vapor movement in roofing systems, current roof condensation research and the tools available to assess roof condensation. It also provides the building design professional with strategies to deal effectively with moisture movement within the roofing system.

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  • ( ~ 1 hour ) 

    Today’s business environment presents significant challenges for commercial roofing systems. Shortages and disruptions in the supply chain, coupled with a diminishing labor force, have led to uncertainty, inflation, and scheduling difficulties for many projects. However, these challenges also open doors for innovative solutions. This course explores the financial and environmental advantages of using a PVC roofing system. It also highlights the benefits of choosing a roofing system from a single supplier.

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  • ( ~ 1 hour ) 

    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.

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  • ( ~ 1 hour ) 

    Natural fibers have been used for over 2,000 years as a method to strengthen building materials. Cellulose fiber provides an excellent alternative to traditional secondary reinforcement, reducing plastic shrinkage cracks and improving durability, impact resistance, shatter resistance, and freeze/thaw resistance without compromising the appearance or finishability of a concrete surface. This course covers the evolution of fiber, its benefits, and why it is a sustainable material.

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  • ( ~ 1 hour ) 

    Color is often used functionally across many design elements; this can also be done with concrete by simply dosing standard concrete mix designs with pigment. Using pigment, concrete can be transformed from a plain, common material into a beautiful, sustainable, and enduring building element. Adding pigments to concrete elevates a project's quality and impact. This course presents basic knowledge of how concrete pigments are manufactured and how they are measured and dispensed to produce the desired color hue and intensity capable of elevating a project to the next level.

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  • ( ~ 1 hour ) 

    Just as healthcare providers strive to stop the spread of disease at its source in the body, so too are facilities trying to stop the source of waterborne viruses and bacteria before they get out of control. This course highlights the concerns and consequences of improper water delivery in healthcare facilities and discusses why they are embarking on a systems approach and using a monitoring system to manage water and infection control.

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  • ( ~ 1 hour ) 

    Green facades can contribute to building energy efficiency, durability, aesthetic value, sustainability, and cost effectiveness in the performance of ecological system services. This course examines the considerations required for successful green facade installations and includes discussions on system selection, design, plant selection, maintenance, and client/owner education.

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  • ( ~ 1 hour, 15 minutes ) 

    Over time, urban parks and other open landscaped areas are being lost to development. One solution to mitigate this issue is to reconsider undeveloped areas such as building roofs to create green amenity spaces. Amenity decks can provide some alleviation of lost green space, while affording developers the potential to monetize underutilized spaces in their buildings and provide an advantage over older buildings to attract tenants.

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  • ( ~ 1 hour ) 

    Stormwater management is critical in an era when severe storms and sewer overflows are increasing in many areas. In urban contexts where open space is at a premium, using on-structure bioretention planters can be the ideal approach. This course explores the benefits of bioretention and how bioretention planters reduce peak flows and improve water quality. The course also discusses how bioretention planters should be designed, can perform as amenities, and contribute to meeting the requirements of green building certification programs.

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  • ( ~ 1 hour ) 

    Buildings need protection from cyber as well as physical threats. Building shielding offers several architectural solutions that contribute to the security of both building occupants and wireless systems. These solutions also help reduce unwanted solar heat and glare while providing protection from the elements and people seeking to cause harm. This course presents the security and performance benefits of shielding technology that can improve wireless performance, energy efficiency, and occupant comfort, satisfaction, and safety

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  • ( ~ 1 hour ) 

    Learners will receive information about cast stone and how it is made, testing requirements, applications, design recommendations, and how it differs from related materials. Learners will describe appropriate specification, design details of cast stone for architectural applications, and how to determine quality cast stone production.

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  • ( ~ 1 hour, 30 minutes ) 

    The parking component of a development is typically considered a “necessity,” but have you considered how much the first and last impressions count? This course shows how automated technology turns parking into an all-around winning proposition through increased ROI, unsurpassed safety for drivers and vehicles, sustainable design with a drastically reduced environmental footprint, and a premium valet experience.

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  • ( ~ 1 hour, 15 minutes ) 

    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.

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  • ( ~ 1 hour, 15 minutes ) 

    Air control dampers are an essential component of a building’s HVAC system, regulating heating, cooling, and ventilation performance. Presented here is an introduction to control, balancing, backdraft, industrial, and multizone dampers; each type plays an important role in the HVAC system. Discussed are damper types, components, and performance metrics. Guidance is provided for damper specification, installation, maintenance, and inspection.

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  • ( ~ 1 hour, 15 minutes ) 

    Louvers are an essential part of every HVAC system, facilitating appropriate airflow and inhibiting unwanted penetration by water, snow, or debris through wall openings and into HVAC ductwork. However, they can have other purposes. Their simple design makes them a versatile addition and a unique style option to any project. This course presents the types, components, and applications of louvers, along with the primary specification considerations when selecting a louver solution.

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  • ( ~ 1 hour ) 

    Not all types of storage lockers are the same, and each facility application calls for its own specifications. There are many different requirements to consider for locker selection. This course reviews the functional and operational needs of users in health and fitness centers, schools, athletic team locker rooms, medical facilities, industrial and manufacturing sectors, and law enforcement facilities. The features and components of metal, wood, phenolic, and plastic lockers are discussed, and guidelines are presented for specifying the right locker solution for user needs.

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  • ( ~ 1 hour ) 

    Bicycling is a healthy activity that improves cardiovascular health and reduces obesity and disease. It can be an excellent mode of transportation for people of all ages. Biking is increasingly becoming the first choice as an alternative means of transportation, but bicycles require safe and secure storage. This course discusses bicycle parking options that meet security, durability, and aesthetic standards.

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  • ( ~ 1 hour, 15 minutes ) 

    Due to their durability, low operational cost, and sustainability, metal roofs are gaining popularity in both commercial and residential markets. Owner expectations for this product family have increased as well and now include heightened aesthetics and long-term performance. While metal roofing systems are certainly up to these challenges, when they fail, the results are costly. Consequently, it is imperative designers have full knowledge of metal roof design and detailing. This course covers the top ten problems metal roof designers face and describes how these problems can be prevented through proper design.

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  • ( ~ 1 hour ) 

    Metal roofing is often preferred for retrofitting a low-slope roof due to its durability, ease of installation, energy efficiency, and water channeling capabilities. This course examines why metal roofs fail, the types of structural standing seam panels, and the pros and cons of different methods for recovering an existing low-slope roof.

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  • ( ~ 1 hour ) 

    Thermally controlled environments such as cold storage freezers and coolers, and food processing and packaging facilities take many different forms. Their performance and functionality depend on their project-specific requirements and can be affected by the conditions the materials and systems are subjected to. This course discusses how insulated metal panels (IMPs) perform the necessary functions to provide an effective energy-efficient building envelope and why they are suitable for use within temperature-controlled hygienic environments—where performance is critical.

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  • ( ~ 1 hour ) 

    The materials we use have a significant impact on the environment, our communities, and our health. Consequently, material transparency—wherein manufacturers disclose vital sustainability information about their products—is an increasingly necessary element of modern life. This course examines the tools and resources that are available for both manufacturers and the A&D community that effectively communicate transparency information and optimization of building products. Also reviewed are the benefits of the new-generation insulated metal panels (IMPs) designed to achieve a trusted range of health and wellness certifications.

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  • ( ~ 1 hour ) 

    In the fight against climate change, efforts intensify against the planet’s number one enemy—carbon dioxide. The building industry will play a significant role in these efforts. Embodied carbon—the global greenhouse gas emissions generated from sourcing raw material and processing, manufacturing, transporting, and installing building materials—will be the target over the next decade. This course will define embodied carbon, its impact on greenhouse gas emissions, the construction industry's impact, and the methods and tools that building designers can employ to limit embodied carbon.

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  • ( ~ 1 hour ) 

    In commercial, industrial, and parking structures, it is important to use doors that can provide speed, safety, separation, and security. High-performance roll-up doors provide all these elements better than conventional doors. This course provides an in-depth discussion of the different types of high-performance doors—fabric, rigid, and rubber—along with their benefits and functions in different applications. The design and installation considerations for using these doors are also discussed.

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  • ( ~ 1 hour ) 

    In food and beverage, food processing/distribution, and cold storage facilities, it is important to use doors that can provide speed, safety, separation, and security. High-speed, high-cycle, roll-up doors provide all these elements better than conventional doors. This course provides an in-depth discussion of the different types of high-performance doors—fabric, rigid, and rubber—along with their benefits and functions in different applications. The specification criteria, design, and installation considerations for high-performance doors are also discussed.

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  • ( ~ 1 hour ) 

    Traditional and modern, linear direct vent gas fireplaces safely provide supplemental heat while preserving indoor air quality. The course explores gas fireplace venting systems and heater- and decorative-rated fireplace options, electric fireplace options, functions, aesthetics, and applications. Also discussed are innovative technologies that enhance performance, applicable codes and standards, safety requirements and precautions, and size considerations.

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  • ( ~ 1 hour ) 

    Building a stronger connection with nature is critical for humans to maintain health and well-being. Composite wood decking is a durable, environmentally sustainable product that can help build links with nature through applications including home outdoor rooms, roof gardens, healing spaces, and public boardwalks in green spaces.

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  • ( ~ 1 hour ) 

    Deck railing systems provide the finishing touch to an outdoor area, as well as safety and improved accessibility. Choosing a system that suits a deck project’s needs depends on a variety of factors, including cost, durability, style, customization, maintenance, and eco-friendliness. This course explores the many railing materials that are available, with a focus on aluminum, composite, and aluminum and composite railing systems, whose characteristics are ideal for most projects. 

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  • ( ~ 1 hour ) 

    Building a stronger connection with nature is critical to maintaining human health and well-being. Composite wood decking is a durable, environmentally sustainable product that can help build links with nature through outdoor living spaces. This course examines the different decking options and explains the sustainability benefits of using composite decking and how it can help meet green building requirements. Various design innovations that enhance occupant well-being are also discussed.

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  • ( ~ 1 hour, 15 minutes ) 

    Unfortunately, gun violence is a reality, and design strategies must be employed to ensure a suitable level of protection and safety. This course addresses bullet-resistant fiberglass composite panels and the need for architectural armoring. The course discusses ballistic material testing and standards, the types of ballistic materials available, and fiberglass composite panel applications and installation considerations.

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  • ( ~ 1 hour ) 

    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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  • ( ~ 1 hour ) 

    Recycled rubber flooring is an environmentally responsible material that outlasts many types of traditional commercial flooring products when exposed to normal foot traffic stress. Interior and exterior recycled rubber surfacing products are explored in terms of their sustainable design benefits and applications. The program includes discussions on rubber manufacturing, postconsumer tires, and green building certification systems.

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  • ( ~ 1 hour ) 

    The choice of flooring is an important consideration in museums; their popularity brings a high volume of foot traffic, and museum spaces have a wide range of flooring needs. This course discusses how recycled rubber flooring is a good choice for museums because of its sustainability, durability, low maintenance requirements, performance attributes, and wide variety of design options.

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  • ( ~ 1 hour ) 

    Seattle has ranked among the country’s fastest-growing cities since the mid-1990s, causing gentrification and displacement of vulnerable communities. For example, African Americans accounted for 73 percent of Seattle’s Central District (CD) population in 1970 and have fallen to less than 14 percent today. As a result, Black churches in the CD face difficult decisions about whether to stay or relocate. However, the churches own property and other assets and, working as a network, could mitigate this gentrification and displacement through strategic real estate development. This vision is advanced by the Nehemiah Initiative Seattle, a collaboration focused on developing the significant real estate assets of Black churches to stabilize and benefit the CD’s African American community. Since 2019, the Nehemiah Initiative has been collaborating with the College of Built Environments at the University of Washington through a series of interdisciplinary design studios focused on this vision. This presentation provides a brief history of Seattle’s Central District, an overview of the Nehemiah Initiative, and the mutual benefits of collaboration between the academy and the community.

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  • ( ~ 1 hour ) 

    When building professionals gather, as they often do these days, to confer under the banner of ESG, the E tends to get the lion's share of the airtime. After all, there is a direct and readily understandable connection between buildings and environmental sustainability, and many of us have devoted significant time and effort to educating ourselves in best practices around this important facet of professional practice. But what about the S? How do those of us engaged in the business of the built environment drive bona fide social impact through the work we do? In fact, there are numerous paths available, and arguably, real social equity is reliant on a foundation of safe and stable housing as much as any other factor. During this webinar, we will explore needs and solutions in the realm of housing affordability and access while specifically touching on both our existing housing stock and impact-focused strategies for bringing new housing online.

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  • ( ~ 1 hour, 30 minutes ) 

    An ideal railing system enhances the appeal and value of a property and contributes to design as well as safety, while not requiring large amounts of time or money to maintain. This course presents an overview of railing system material options with a focus on aluminum and thermoplastic. The performance, design, and sustainability benefits of each material are discussed, along with mounting and aesthetic options. The course concludes with tips on selecting the right railing system for the project and case studies showcasing aluminum and thermoplastic railing system installations.

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  • ( ~ 1 hour, 15 minutes ) 

    ICF construction is cost effective and sustainable, and is a superior way to build stronger, quieter, healthier, and more energy-efficient commercial structures. This course explores insulated concrete form (ICF) construction, describing the forms themselves and their construction, performance, and sustainable benefits. Also presented are design guidelines, the installation process, flooring systems, and commercial project applications.

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