Designing Metal Wall and Roof Systems ( ~ 1 hour, 15 minutes ) 

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Metal roof and wall systems have long been specified for commercial, residential, and industrial buildings because they have a lengthy history of durability, reliability, and resilience. This course examines the attributes of metal panel systems and the design options that make metal-clad buildings sustainable, attractive, and suitable for a variety of applications and environmental conditions.

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.

Underslab Vapor Retarders in Buildings ( ~ 1 hour ) 

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https://redirect.aecdaily.com/s9572/www.aecdaily.com/course/969550

Underslab moisture is something that designers need to take into consideration in both the design and construction phases of a building project. It can cause many problems for the building and the health of its occupants over the course of its life span; however, if properly addressed during design and construction, many of these issues can be mitigated. This course looks at the different types of moisture movement that exist below the slab, examines solutions for a variety of site conditions, and reviews best practices for managing moisture.

Metal Roofing Installations: Key Considerations ( ~ 1 hour ) 

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In this video series course, we cover common metal roofing installation considerations. The first video discusses typical metal roof penetrations and details for proper installation. The second video presents metal enhancement options and design and installation tips to prevent premature corrosion in marine environments. The final video explores the expansion and contraction of standing seam metal roofs and how points of fixity accommodate thermal movement.

Achieve Net Zero Building Goals with Carbon Fiber Reinforced Precast Sandwich Walls ( ~ 1 hour ) 

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Concrete is an essential part of modern buildings. As net zero energy buildings become more common, it is crucial to find ways to reduce concrete’s carbon footprint without losing the performance characteristics that make it valuable to the building team. This course explains the sources of concrete’s carbon footprint and explores strategies for reducing embodied carbon and operational carbon in precast sandwich wall panels and insulated architectural cladding.

NFPA 285: What We’ve Learned, What’s Changed, and What We Thought We Knew ( ~ 1 hour ) 

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This course explains the NFPA 285 test method, its origin, its procedures, when it is required, and design considerations necessary for compliance. Criteria in ASHRAE 90.1 for continuous insulation and air/water-resistive barriers are reviewed and identified as contributors to the rise of NFPA 285 requirements. The course also addresses code compliance in light of recent material changes, code changes, and additional testing.

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.

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.

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.

Separating Cool Roofing Facts From Myths ( ~ 1 hour, 15 minutes ) 

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White roofs made of PVC (vinyl) can reflect three-quarters or more of the sun's rays and emit 70% or more of the solar radiation absorbed by the building envelope. Despite protecting and keeping buildings cool in all climates around the world for decades, misconceptions about the energy impact of cool roofs still exist. This course uses the fundamental science behind cool roofs to address alleged issues concerning the performance of cool roof products.

Polyiso CI for Code-Compliant Walls in Types I–IV Construction ( ~ 1 hour, 15 minutes ) 

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There are a multitude of building envelope products used and a variety of methods taken for achieving energy and building code requirements. Understanding the different roles a product plays in the envelope simplifies its design. In this course, we take a look at the code requirements for buildings classified as IBC Types I–IV, paths to achieving compliance, and the number of roles polyisocyanurate insulation plays in meeting these requirements.

Concrete Masonry: The Energy Efficiency Solution ( ~ 1 hour, 15 minutes ) 

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https://redirect.aecdaily.com/s7816/www.aecdaily.com/course/977173

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.

The Importance of Space: Rainscreen Technology in Residential Building Design ( ~ 1 hour ) 

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Building science experts have acknowledged the need for both drainage and ventilation in exterior wall systems in order to eliminate moisture issues and extend the life of buildings. This presentation reviews the concepts of rainscreen technology and the solutions for compliance with a focus on engineered rainscreen drainage and ventilation mats used in direct-applied and ventilated wall designs. Prerequisites: No Course Level: Introductory

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.

Specifying and Using Fire-Retardant-Treated Wood ( ~ 1 hour ) 

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For some applications, building codes provide for the use of fire-retardant-treated (FR) wood products as an alternative to noncombustible materials. To ensure that FR wood products are properly specified, it is important to understand how these products are made, their formulations, and the building code references that guide their use in construction. This course offers a review of FR wood products, including their manufacture, the applications and types of fire retardants that are available, and the factors that must be considered to ensure FR wood products are properly specified for code compliance.

General Commercial Buildings with Insulating Concrete Forms (ICFs) ( ~ 1 hour ) 

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Designing beautiful, sustainable, high-performance buildings can help your structures leave a lasting impression and positive impact. Insulating concrete forms (ICFs) accomplish that while providing innovative design possibilities for single or multistory projects. Learn about the features and advantages of building with ICFs designed as a cost-effective, energy-efficient solution that offers substantial benefits over traditional construction methods.

Embodied Carbon and the Building Envelope ( ~ 1 hour ) 

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https://redirect.aecdaily.com/s9727/www.aecdaily.com/course/973831

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.

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.

Incorporating the Forgotten Thermal Benefits of Brick ( ~ 1 hour, 15 minutes ) 

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https://redirect.aecdaily.com/s624574/www.aecdaily.com/course/1025181

While frequently chosen for aesthetics and durability, clay brick is not often considered when energy efficiency is a primary concern, even though it historically played a significant role in occupant comfort before the widespread use of HVAC systems. This course discusses the basics of heat transfer, relevant energy code provisions for walls, and how current research by the National Brick Research Center demonstrates the role that brick veneer can play in meeting or exceeding energy requirements in modern wall assemblies.

Differentiated Performance and Long-Life Architectural Coatings ( ~ 1 hour, 15 minutes ) 

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https://redirect.aecdaily.com/s616041/www.aecdaily.com/course/1048990

Building owners have come to rely on weatherable coatings to provide long-term protection to their buildings. With an increased focus on sustainability, performance, and durability, PVDF resin-based coatings can help architects and painting contractors exceed their clients’ design goals. This course covers the key components and functions of high-performance weatherable coatings and looks at how these coatings contribute to sustainable design.

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.

Firestop Specifications ( ~ 1 hour ) 

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https://redirect.aecdaily.com/s19863/www.aecdaily.com/course/1077571

Firestopping is the process of sealing openings around penetrants or in joints or gaps between fire-rated assemblies to restore hourly fire resistance ratings. It is a critical part of fire containment and a balanced fire and life safety plan. This course outlines resources and code requirements that architects and designers should be aware of while preparing specifications for firestop systems in their projects. The course also reviews common mistakes to avoid.

The Solar Roof-Plus-Storage Ecosystem ( ~ 1 hour, 15 minutes ) 

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https://redirect.aecdaily.com/s1092062/www.aecdaily.com/course/1134323

Residential solar power generates clean energy, reduces carbon footprint, protects against rising electricity rates, and protects property from outages, but it is only effective during daylight hours. Adding battery storage to a solar system—called solar plus storage—removes this limitation and moves a home closer to energy independence. In this course, we will review the components of a solar-plus-storage system, including selection considerations for residential rooftop solar and DC-coupled solar batteries. The course also reviews the extended system of monitoring and DC charging.

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

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https://redirect.aecdaily.com/s3379/www.aecdaily.com/course/961744

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.

Engineering a High-Performance Roofing System for Steep-Pitch Roofs ( ~ 1 hour ) 

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https://redirect.aecdaily.com/s12394/www.aecdaily.com/course/1179979

The performance and durability of a roof are critical to the health, welfare, and safety of both building occupants and the building itself. This course examines the construction, materials, and best detailing practices that ensure the proper long-term performance of steep-pitch roofs. It describes and details layout options for assemblies of steep-pitch roofs and the key characteristics of roofing systems that help to prevent roof deterioration and damage. It then highlights best practices in detailing and constructing steep-pitch roof systems that mitigate water, ice, snow, fire, or wind damage to the roof.