High-Performance Paint Removers: Safe and Effective Alternatives ( ~ 1 hour ) 

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Paint in its various forms is an older material whose composition has constantly evolved, even in modern times. This evolution has included the identification and removal of certain hazardous ingredients. Similarly, paint removers have also evolved and improved their ability to deal with a wide range of old and new paint formulas while remaining safe for the occupant, the worker, and the environment at large. This course examines state-of-the-art nontoxic paint removers that are effective in removing as many as thirty coats of paint in one safe and efficient operation.

Prioritizing Performance for Building Enclosures (Recorded Webinar) ( ~ 1 hour ) 

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This course is designed to help the commercial building team understand how to best use new products introduced into the market for building enclosures. These innovative products and systems assist in combining multiple steps of a traditional commercial exterior assembly, such as structure, fire, water, air, thermal, vapor, and acoustic control layers, into fewer steps. The course reviews various hybridized sheathing solutions and shows how the integration of advanced technology has improved performance, capability, and sustainability.

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.

Insulate Ukraine ( ~ 30 minutes ) 

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The war in Ukraine has left thousands living in substandard housing conditions, insufficient for winter weather. This course reviews a solution developed by a British engineer that addresses the pressing problem of delivering replacement windows in a war zone to improve thermal comfort in Ukrainian homes.

Protected Membrane Roof (PMR): Innovative Solution for Sustainable Commercial Buildings ( ~ 1 hour ) 

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Protected membrane roof (PMR) assemblies have been widely adopted in low-slope commercial buildings since the late 1960s. Also known as inverted or upside-down roofs, PMR assemblies move the waterproofing membrane from the top of the roof assembly to the surface of the structural deck. This course explores how PMR assemblies provide several advantages over conventional roof assemblies, offering superior protection against water penetration and enhanced energy efficiency. The course also shows how PMR assemblies allow for the creation of green roofs or blue roof systems. With a proven record of reliability, PMR assemblies present a compelling solution for architects seeking innovative, sustainable, and efficient roofing options.

Sectional Door Systems & the Importance of Thermal Performance ( ~ 1 hour ) 

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Often the largest access point in a building, sectional door systems play a significant role in controlling energy costs and supporting sustainable design in residential and commercial buildings. This course explores the specification considerations and the different types of sectional garage doors, as well as their role in enhancing the thermal performance of homes and commercial buildings.

Designing Sustainable Materials for Building Integration (Recorded Webinar) ( ~ 1 hour ) 

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The 2022 Inflation Reduction Act shines a light on how low-carbon building material selection is one of the keys to reducing greenhouse gas emissions in the US. High-performance, sustainable products and thoughtful assemblies designed with the building life cycle in mind are critical to the future of our sustainable communities. This course provides a look at how low-carbon and sustainability considerations are activated from product to building design. Factors impacting a sustainable building life cycle are discussed to help architects and owners with building performance that meets the design intent not just on paper but also in use.

Cold Storage and Controlled Environments Using Insulated Metal Panels ( ~ 1 hour ) 

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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.

Roofs and Condensation: A Practical Approach for the Design Professional ( ~ 1 hour ) 

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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.

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.

Structural Steel: Sustainability & Fireproofing ( ~ 1 hour ) 

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With the ever-increasing focus on the sustainable built environment, building owners, architects, engineers, and contractors are incorporating structural steel into their designs. Presented here is a comprehensive view of the cradle-to-cradle structural steel supply chain from a sustainability perspective. Also discussed are steel production and design, steel’s potential contribution to LEED v4 credits, thermal capacity, and the environmental and life cycle benefits of prefabricated fireproof steel columns.

Mineral Wool as a Continuous Insulation Solution ( ~ 1 hour, 15 minutes ) 

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Insulation can help increase overall energy efficiency, minimize the spread of fire, manage risks associated with moisture and mold, and improve occupant comfort. Choosing the right insulation and putting it in the right location is becoming one of the most important decisions in design, construction, and retrofit. Reviewed in this course are the features, benefits, and design and installation considerations related to mineral wool continuous insulation.

High-Performing Weather-Resistant Barriers: Specifying the Appropriate Material ( ~ 1 hour ) 

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Water and moisture intrusion can affect everything from a building’s structural durability to its indoor air quality. Understanding the material options, installation, and testing criteria for high-performing weather-resistant barriers (WRBs) can help specifiers manage present and future moisture concerns.

Concrete Waterproofing with Crystalline Technology ( ~ 1 hour ) 

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Historically, traditional waterproofing methods involve the placement of a barrier or membrane between the concrete and water. Unlike membranes and other surface systems, crystalline waterproofing is designed to make the concrete itself waterproof. This course discusses how crystalline waterproofing technology provides a high level of performance to concrete structures and what design professionals need to know in order to specify and understand how this chemical technology can improve building projects, cut costs, and help earn LEED® credits.

Basics of Moisture Movement Through the Building Enclosure ( ~ 1 hour ) 

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One of the more complicated issues today in building science is addressing moisture movement, since moisture can penetrate a building in several different ways and result in material degradation, air quality issues, and failure of the building enclosure. This course examines the ways moisture can enter a structure and discusses the role of different moisture control layers that, when correctly placed and installed, can prevent unwanted moisture infiltration.

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.

Sectional Door Systems & the Importance of Thermal Performance ( ~ 1 hour ) 

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Often the largest access point in a building, sectional door systems play a significant role in controlling energy costs and supporting sustainable design in residential and commercial buildings. This course explores the specification considerations and the different types of sectional garage doors, as well as their role in enhancing the thermal performance of homes and commercial buildings.

Under-Slab Vapor Barriers: Restricting Moisture and Soil Gas Infiltration ( ~ 1 hour ) 

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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.

Expansion Joint Cover Systems ( ~ 1 hour, 15 minutes ) 

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An expansion joint is a structural gap designed to accommodate the movement of a building in a controlled manner, preventing damage to the building’s internal and external finishes. Expansion joints run throughout a building in walls, ceilings, and floors. Expansion joint covers provide a covered transition across an expansion opening and remain unaffected by the relative movement of the two surfaces either side of the joint. This course explains how to determine joint movement requirements and how to size a joint. It also discusses the performance of different expansion joint cover systems and the applicable fire protection and building codes.

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.

Insulated Metal Panels: The Perfect Envelope Solution ( ~ 1 hour ) 

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Fundamentally, a building envelope functions as an environmental separator, and has specific hygrothermal control requirements. This course examines how insulated metal panels (IMPs) create the perfect envelope solution, incorporating the same control layers as site built wall systems. Discussions include: building envelope design; perfect/universal walls; and the use of IMPs to provide the building envelope’s exterior finish, and the air, vapor, water, and thermal barriers.

Cold Storage and Controlled Environments Using Insulated Metal Panels ( ~ 1 hour ) 

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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.

Designing Buildings for Heat Resilience & Energy Efficiency ( ~ 1 hour ) 

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Urban warming negatively impacts human health and quality of life, energy use, air quality, social equity, and economic prosperity. This course describes how solar reflective cool roof and wall materials help protect individuals and communities from the impacts of extreme heat and discusses the factors that influence energy savings and performance. The course also notes various climate resilience initiatives, green building programs, and energy codes that require or promote the use of cool roofs or walls and concludes by explaining the important role of third-party product ratings and the educational resources available online.

Thermal Spacers for Code Compliance and Improved Energy Efficiency in Metal Buildings ( ~ 1 hour, 30 minutes ) 

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The key to an energy-efficient metal building is the implementation of a continuous insulation system that virtually eliminates thermal bridging and prevents condensation. This course discusses how using thermal spacer blocks and metal building insulation in the building envelope increases energy performance, protects against condensation, and meets stringent energy code requirements.

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.