Site Security with Precast Concrete ( ~ 1 hour ) 

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Comprehensive site security design should balance managing traffic flow and preventing vehicular intrusion with enhancing the existing character of the site. This course presents FEMA’s guidance on risk assessment and layers of defense, vehicle impact test standards, bollard types, the precast concrete manufacturing process, barrier system design considerations, and incorporating precast concrete bollards and site furnishings into perimeter security design.

Designing a Sustainable Masonry Cavity Wall Building Envelope ( ~ 1 hour, 30 minutes ) 

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Masonry is an ideal sustainable building construction material as it is extremely durable, recyclable, and reusable. It allows for extraordinary design versatility, so it can meet both aesthetic and functional requirements. This course looks at the design elements, components, and construction techniques that characterize sustainable masonry cavity wall building envelopes.

Biomimicry: Design by Nature ( ~ 1 hour ) 

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Animals, plants, and microbes are engineers of what works and lasts on earth. Biomimicry is a practice in which nature’s designs, patterns, and strategies are examined to find sustainable solutions to our technical and design problems. This course discusses how applying the concepts of biomimicry can better connect our designs and buildings with nature and examines the relationship between nature’s solutions to light, heat, glare control, and shading design principles.

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.

Building Envelope Guidelines for Mass Timber ( ~ 1 hour, 15 minutes ) 

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As interest in cross-laminated timber (CLT) buildings grows, the market for building enclosure products as a whole has yet to fully provide the water-resistant barriers, vapor retarders, and air barriers to optimally support the unique characteristics of wood. Furthermore, there are few building enclosure design guides specific to detailing wood-framed walls and roofs. This comprehensive course fills the gaps, providing detailed information on mass timber, building enclosure issues, the vapor-permeable technology available to address wood’s unique moisture characteristics, and a how-to guide on detailing the walls and roof of the enclosure.

Protecting People & Property: Fortifying Building Safety with Ballistic, Blast, Storm Impact, & Forced Entry Solutions ( ~ 1 hour ) 

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Identify key fenestration design criteria that will fortify buildings against ballistic, blast, forced entry, and environmental threats.

Radon Abatement: Controlling Radon Gas in Residential Construction ( ~ 1 hour ) 

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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.

Insulated Concrete Forms ( ~ 1 hour ) 

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The construction of residential and commercial buildings that use less energy to operate and are long lived is a key part of sustainable design. Insulated concrete forms (ICFs) provide the necessary U-factor, airtightness, resiliency, and durability for all building types. Insulated concrete forms in residential and commercial construction projects offer excellent thermal performance and reduced energy consumption and operating costs, while maintaining a very comfortable and healthy interior environment. This course examines the ICF wall, including materials and components, and discusses design considerations and construction.

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.

Advances in Sustainability with Spray Polyurethane Foam ( ~ 1 hour ) 

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No discussion about a material’s sustainability is complete unless it addresses embodied carbon, the carbon dioxide (CO₂) emissions associated with the material over its cradle-to-grave life cycle. Changes made to spray polyurethane foam (SPF) insulation formulations address the impacts of embodied carbon. This course explores the evolution and environmental impacts of SPF blowing agents, the performance benefits of SPF, physical property testing and certifications, and SPF’s potential LEED® v4 contributions. Case studies make evident the performance value of SPF.

Retrofit Anchoring of Masonry and Stone Façades ( ~ 1 hour ) 

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Masonry wall types have evolved from self-supporting mass walls to cavity walls and veneers that require wall ties or anchors. Over time, anchors can fail and masonry wall systems can become unstable and require repair. This course discusses how to recognize unstable façades, how retrofit anchors can be used to repair these instabilities, the different types of anchors available, and how to determine the proper repair procedure.

Fire Code Compliance and Insulated Metal Panels ( ~ 1 hour ) 

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Understanding how insulated metal panels comply with fire safety regulations under the code is critical to their proper use in creating highly energy-efficient and sustainable buildings. This course takes a relatively complex subject and addresses the most important fire safety aspects to allow building designers to make an informed decision on the use of these popular cladding systems. Also reviewed are how these products have been addressed in the development of the International Building Code and the various third-party product listings, evaluation reports, and engineering judgements used to show compliance.

Resin-Mineral Composite Decking & Siding: Design Versatility & Natural Appeal ( ~ 1 hour ) 

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Resin-mineral composite is an exceptional building material for exterior applications and embodies the enduring appeal of wood without its challenges. The composition, design options, and performance attributes of resin-mineral composite (RMC) decking and siding are explored. Also discussed are product and manufacturer sustainability, product evaluations, and the range of applications suitable for resin-mineral composite.

Sound Control in Multifamily Floor/Ceiling Assemblies ( ~ 1 hour ) 

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Provides an overview of the noise issues associated with floor/ceiling assemblies of multifamily dwellings, as well as the factors that affect acoustical performance. Also presented is a review of the acoustical solutions that are available with a focus on sound mats with poured underlayment (SMPU) systems.

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.

Thermal Bridging & Thermal Break Solutions ( ~ 1 hour, 15 minutes ) 

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The need to evaluate thermal bridging in a building’s design and performance has become more prevalent because of the increasing requirements for more energy-efficient buildings. This course provides an introduction to thermal bridging, energy code requirements, and the use of thermal break solutions designed to improve energy efficiency in the building envelope.

EPS Insulation for Innovative Roofing Applications ( ~ 1 hour ) 

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https://redirect.aecdaily.com/s20141/www.aecdaily.com/course/1145493

Retrofitting and replacing roof systems are essential aspects of the construction industry and offer opportunities to reduce a building’s energy consumption. Sustainable retrofitting of roofs with durable, energy-efficient materials helps reduce waste and conserve resources while promoting ecofriendly building practices. This course gives an overview of expanded polystyrene (EPS) insulation and innovative roof systems that are designed to enhance building efficiency.

The Advantages of Polyiso Insulation in Below-Grade Installations ( ~ 1 hour ) 

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Polyisocyanurate (polyiso) insulation is one of North America’s most widely used, readily available, and cost-effective insulation products. While polyiso is currently most commonly known for its use on roofs and walls, this course focuses on the many benefits of using it in below-grade installations in order to meet energy codes, maximize the building foundation’s thermal performance, and extend the overall life of the structure. The course explores the requirements for three primary characteristics of any below-grade insulation—thermal performance, water absorption, and load capacity—and describes how polyiso meets or exceeds those requirements and protects the foundation waterproofing system.

Upward-Acting Commercial Sectional Door Systems ( ~ 1 hour ) 

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Upward-acting commercial sectional door systems can be a major contributor to controlling energy costs in buildings. This course evaluates the materials and construction of various door types and discusses the selection criteria and operation features that are available to enhance door performance for a range of applications.

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

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https://redirect.aecdaily.com/s680223/www.aecdaily.com/course/901794

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.

Impact of Window Treatments on Commercial Daylighting Design ( ~ 1 hour ) 

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Daylighting is the controlled admission of natural light into a building. It takes into consideration both direct and diffuse sunlight and reduces use of electric light, thereby decreasing energy costs. By controlling daylight, solar heat gain can be minimized, lowering the demand on HVAC systems. This course evaluates a variety of daylighting strategies for commercial applications and includes discussions about the relevance of daylight factor calculations and the impact fabric characteristics have on a shading solution.

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.

Mastering Elevated Deck Systems for Outdoor Applications ( ~ 1 hour ) 

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https://redirect.aecdaily.com/s448592/www.aecdaily.com/course/1190316

In this course, we will explore the features and outdoor applications of elevated deck systems that enable architects to optimize outdoor spaces with functionality, sustainability, and aesthetic appeal, creating attractive and safe spaces for occupants. This course covers the system components for practical applications in various settings, offering insights into proprietary pedestal systems.

Threat Mitigation: Protecting People and Property ( ~ 1 hour ) 

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https://redirect.aecdaily.com/s1151436/www.aecdaily.com/course/1165305

In today’s rapidly evolving world, safety is a critical factor in architectural design. This course examines how fenestration systems enhance building protection through bullet resistance, fortified glazing, and advanced barrier solutions. Learn how potential threats influence the selection of these systems and how they integrate seamlessly into architectural projects.

Single-Skin Metal Panel Building Envelope Solutions ( ~ 1 hour, 15 minutes ) 

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As part of a well-designed rainscreen system, single-skin metal panels offer unique aesthetic options combined with the assurance that the building envelope will withstand the effects of long-term exposure to the elements. This course compares common cladding types; presents single-skin metal panel materials, coatings, finishes, and design options; and examines using single-skin metal panels with a single-component barrier wall to form a complete rainscreen assembly. This course is one of two identical courses titled Single-Skin Metal Panel Building Envelope Solutions . You will receive credit for taking only one of these courses.