Fire & Smoke Protection with Life Safety Dampers ( ~ 1 hour, 15 minutes ) 

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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.

Standing Seam Metal Roofing: Prepainted Architectural and Structural Panel Systems ( ~ 1 hour, 15 minutes ) 

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https://redirect.aecdaily.com/s5533/www.aecdaily.com/course/969021

A metal roof combines performance and aesthetics to give commercial and residential buildings strength, longevity, and character. This course examines the features and benefits of standing seam metal roofing and explains the factors to consider when selecting a project-specific metal roofing system.

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.

Concrete-Faced Continuous Insulation Systems ( ~ 1 hour ) 

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Concrete-faced insulated products are composite prefinished panels that are used to construct walls and roofing assemblies to maximize the energy efficiency, durability, and performance of a building envelope. This course discusses the design criteria used in designing energy-efficient buildings using concrete-faced continuous insulation systems for low-slope roofing, walls, and foundations. The functional and physical features of protective membrane roof (PMR) systems, concrete-faced insulated panels for walls and foundations, and concrete structural insulated panels (CSIPs) are evaluated.

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.

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

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https://redirect.aecdaily.com/s9727/www.aecdaily.com/course/811766

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.

The Art of Insulated Metal Panels ( ~ 1 hour ) 

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Insulated metal panels (IMPs) are known for their superior heat loss control, moisture and air resistance, and striking aesthetic capabilities. This course highlights how these attributes can be integrated to create beautiful, healthy, and safe buildings. It explains how IMPs achieve air, water, vapor, and thermal control via an advanced and cost-effective single-component system that accelerates construction time and offers design flexibility. The course includes essential design details and case studies that showcase the functional and aesthetic capabilities of IMPs. 

Architectural Metal Panels & Rainscreen Systems: Attachment Planes, Testing, & Design Options ( ~ 1 hour ) 

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Properly designed and installed rainscreen systems help optimize building envelope performance. This course reviews rainscreen system types, testing, and components, with special attention given to attachment plane considerations that ensure durability and thermal efficiency. Also reviewed are the potential contributions of rainscreen systems to the LEED® v5 Building Design and Construction and Interior Design and Construction rating systems and the WELL Building Standard™ version 2. The wide array of metal panel design options presented here demonstrates the potential to create unique and striking aesthetics across a range of applications.

Advantages of Slag Cement for Improving Today's Concrete ( ~ 1 hour, 15 minutes ) 

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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.

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.

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.

Reducing Fire Risk at the Perimeter of High-Rise Structures ( ~ 1 hour ) 

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A growing number of high-rise fire incidents around the world have raised awareness about the fire safety performance of taller structures. Timing for containing a high-rise fire is critical, as high numbers of occupants have limited means of escape. Vertical fire spread along the exterior facade may quickly overwhelm firefighters at ground level, especially if it advances to heights beyond the reach of their ground attack. This course looks at issues surrounding high-rise fires, how they spread, and how following building codes and proper material testing can lessen the risk or impact of these blazes.

Fire Performance Testing and Compliance for Exterior Wall Assemblies ( ~ 1 hour ) 

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With limited exceptions, the International Building Code® (IBC®) requires testing and compliance with NFPA 285 for exterior wall assemblies of buildings of Types I, II, III, and IV construction containing foam plastic insulation. This course examines three methods for demonstrating that an exterior wall assembly design complies with NFPA 285, including engineering analysis. The course also discusses how and where to locate NFPA 285 information for each compliance method.

High-Performance Building Envelope Designs with Insulating Concrete Forms ( ~ 1 hour, 30 minutes ) 

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Insulating concrete form (ICF) products use a cost-effective and robust structural material option (reinforced concrete) to turn a building envelope into a high-performing thermal, moisture, and air enclosure with disaster resistance and built-in compliance with energy code requirements. As a result of ICF performance, building owners can complete a whole structure with ICFs and reinforced concrete, including intermediate suspended floors, rooftops, and multistory designs. This course examines the advancements in ICF technology and discusses the potential contribution of ICFs to supporting improved sustainability and resilience.

Sustainable Building Envelope Performance with Self-Sealing Fasteners & Anchors ( ~ 1 hour ) 

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Sustainable building envelopes demand high performance from and proper installation of continuous insulation and air, water, and vapor control layers. What happens when thousands of holes are made in these materials as they are installed with blind fasteners, one layer on top of another by different subcontractors? Sequencing issues can generally not be avoided; instead, this course focuses on self-sealing fasteners as a solution to avoid damage and thermal bridging in insulation and control layers. Various fasteners and anchors are described, and recommendations are presented for how to specify and what testing data to look for.

Safe & Tested Chemistry to Combat Wildfires, Environmental Harm, & the Insurance Crisis ( ~ 1 hour ) 

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The effects of climate change are causing the threat of extreme wildfires to grow across the US, even in areas not considered to be at risk 20 years ago. Designing fire-resistant properties that are prepared and protected year-round is an essential factor in building wildfire-resilient communities. This course reviews the health and environmental harms of wildfires and their role in the growing insurance crisis and then addresses how an eco-friendly fire inhibitor can be part of a multilayered defense strategy. Also discussed are this nontoxic product’s fire and safety testing and certifications and how it can be deployed in a variety of methods to serve as a proactive defense against embers, the leading cause of structure ignitions in wildfire events.

Polyiso CI for Code-Compliant Walls in Type V and Residential Construction ( ~ 1 hour, 30 minutes ) 

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Continuous insulation is part of building standards and state and energy codes due to its ability to reduce thermal bridging and the associated heat loss and energy consumption. This course looks at the use of polyisocyanurate as a continuous insulation in Type V and residential construction and its use as a multifunctional envelope component—air barrier, weather-resistive barrier, and vapor retarder—by reviewing code requirements for the building envelope.

Not All Concrete Is the Same: Low Embodied Carbon Dry-Cast Concrete Masonry ( ~ 1 hour, 15 minutes ) 

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https://redirect.aecdaily.com/s7816/www.aecdaily.com/course/1178510

Concrete masonry units (CMUs) are made from dry-cast concrete, which uses less cement and sequesters carbon at a faster and greater rate than wet-cast concrete. This course begins with an overview of concrete products and the differences between dry- and wet-cast concrete, then explores the relationship between concrete and the carbon cycle, recent research into CMU sequestration rates, and the results of mini life-cycle assessments comparing different wall systems. Finally, some practical strategies for further reducing embodied carbon are reviewed.

Exterior Wall Fire Performance with Polyiso CI for Types I–IV Construction ( ~ 1 hour ) 

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The increase in building energy efficiency requirements has led to the use of exterior continuous insulation (CI) to improve the performance of the building envelope. This presentation reviews the benefits of polyiso continuous insulation and then examines in detail the NFPA 285 test standard and fire safety requirements of the 2021 International Building Code for the use of polyisocyanurate insulation in exterior walls of commercial buildings (Construction Types I–IV).

Designing with Architectural Decorative Glass ( ~ 1 hour ) 

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https://redirect.aecdaily.com/s661112/www.aecdaily.com/course/880724

Due to advancements in architectural decorative glass technology, the number of design options available to help designers and architects achieve the specific aesthetics and performance requirements they desire has dramatically increased. This course provides a review of architectural decorative glass including product options, applications, features, and specification considerations. Also discussed is how decorative glass can contribute to sustainable design and LEED® initiatives.

Green Roofs: A Sustainable Strategy ( ~ 1 hour ) 

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https://redirect.aecdaily.com/s13011/www.aecdaily.com/course/884076

Designing with green roofs affords design professionals opportunities to plan projects with exciting new elements, added value, and significant, tangible benefits, thereby enhancing the built environment with newly-created landscapes. This course examines green roof systems, including the types, benefits, components, and related standards. As well, it provides a discussion on how green roofs mitigate urban heat island effect and reduce stormwater runoff.

From the Ground Up: A Guide to Foundation Waterproofing ( ~ 1 hour ) 

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Asphaltic-rubber membranes play a crucial role in the successful implementation of below-grade foundation waterproofing by forming a monolithic, flexible layer that protects the foundation and supports its long-term structural integrity. Presented is an overview of dampproofing and waterproofing, preparation requirements for foundation design, hydrostatic pressure, and positive- and negative-side waterproofing. Also discussed are the design of below-grade, vertical foundation waterproofing applications and guidelines for proper specifications. The course compares waterproofing membrane technologies and addresses insulation, drainage, and backfill requirements.

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.

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

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https://redirect.aecdaily.com/s10541/www.aecdaily.com/course/1012800

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.

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.